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Institute
- Theodor-Boveri-Institut für Biowissenschaften (483) (remove)
Sonstige beteiligte Institutionen
- Institut für Tierökologie und Tropenbiologie (2)
- Boehringer Ingelheim Pharma GmbH & Co. KG (1)
- Deutsches Krebsforschungszentrum Heidelberg (1)
- ESPCI Paris (1)
- European Molecular Biology Laboratory, Heidelberg, Germany (1)
- Fachgebiet für Populationsgenomik bei Nutztieren, Universität Hohenheim (1)
- Klinische Mikrobiologie am Universitätsklinikum Erlangen (1)
- König-Ludwig-Haus, Orthopedic Clinic, Würzburg (1)
- Landesbetrieb Landwirtschaft Hessen, Bieneninstitut Kirchhain (1)
- Lehrstuhl für Tierökologie und Tropenbiologie, Universität Würzburg (1)
- Michigan State University (1)
- National Park "Bavarian Forest" (1)
- Research Center of Animal Cognition, Universite Paul Sabatier Toulouse III (1)
- Roche Diagnostics GmbH Penzberg (1)
- Technische Hochschule Nürnberg Georg Simon Ohm (1)
- Technische Universität Darmstadt (1)
- Universität Duisburg-Essen, Institut für Molekularbiologie, AG Becker-Flegler (1)
ResearcherID
- J-8841-2015 (1)
- N-2030-2015 (1)
EU-Project number / Contract (GA) number
- 311781 (1)
Allergic disease are inflammatory disorders in which aberrant immune regulation occurs, and susceptible individuals mount allergen specific T helper 2 (Th2) responses, which drives disease pathology. Recent studies indicate that Th2 responses that are characteristic of allergic manifestations can be regulated by both naturally occurring CD4+CD25+ regulatory (Treg) cells and antigen-driven IL-10-secreting CD4+ regulatory T cells. Evidence is also emerging that successful Allergen specific immunotherapy (SIT) might work through the induction of IL-10-secreting regulatory T cells. In the first part of this work, I demonstrated the efficiency of allergen specific immunotherapy in the mouse model for allergic airway inflammation. Here I could show that intranasal administration of SIT abrogates allergic symptoms more efficiently, than the subcutaneous treatment. Furthermore, an IL-4/IL-13 (QY) inhibitor was used as an adjuvant for SIT, which has been demonstrated to have an anti-allergic potential, when administered prophylactically during allergic sensitization. However, the combination therapy with SIT and the inhibitory molecule QY did not show any significant enhancement in regards to all measured allergic parameters, when compared to monotherapy with SIT. These results provide the evidence, that shift from Th2 to Th1 cytokine profile might not be a key event in successful SIT. Subsequently, the investigation of immune mechanisms under successful SIT demonstrate that the increase of IL-10 secreting CD4+ T regulatory cells is associated with the suppression of airway inflammation in our mouse system, suggesting that these T cell subsets might be involved in the regulatory mechanisms of allergic disorders. In agreement with these findings is the second part of this work, where superagonistic a-CD28 mAb´s were used for the expansion of T regulatory cell subsets in our murine model for allergic airway inflammation. Here I could show, that the application of a-CD28 mAb during allergic sensitization, resulted in the establishment of a Th2 state, rather than a stimulation of a Treg cell population, supporting the Th2 promoting role of a-CD28 mAb together with TCR engagement. However, interesting findings were obtained by application of the superagonistic a-CD28 mAb in the challenge phase in established allergy. Conversely to the previous experiment, therapeutic administration of a-CD28 mAb lead to the generation of IL-10 secreting CD4+CD25+ T cell population in line with the induction of anti-allergic effects. Taking together the results of this study argue for the anti-inflammatory properties of T regulatory cells in allergic disease and highlights importance of these T cell subsets in the suppression of Th2 cell-driven response to allergen. Moreover, these observations suggest that the induction of IL-10 in vivo by T regulatory cells may represent a novel treatment strategy for allergic disorders.
BAKTERIELLE ENDOSYMBIONTEN DER BIENENWÖLFE Symbiontische Interaktionen zwischen verschiedenen Arten stellen allgegenwärtige und essentielle Bestandteile natürlicher Systeme dar und haben wahrscheinlich die Evolution jedes rezenten Lebewesens beeinflusst. Insekten als die diverseste Metazoen-Klasse der Erde profitieren von dem außerordentlichen metabolischen Potenzial vieler Mikroorganismen in einer großen Anzahl mutualistischer Assoziationen. Die große Mehrheit der bisher untersuchten Symbiosen zwischen Insekten und Mikroorganismen stellen Interaktionen dar, in denen die Wirte durch die Symbionten mit essentiellen Nährstoffen versorgt werden. Es sind jedoch auch einige Fälle bekannt, in denen symbiontische Bakterien eine wichtige Rolle für die intraspezifische olfaktorische Kommunikation spielen oder zur Verteidigung gegen Pathogene oder Parasitoide dienen. Die vorliegende Arbeit untersucht eine hoch spezialisierte Assoziation zwischen einer Grabwespen-Art, dem Europäischen Bienenwolf (Philanthus triangulum, Hymenoptera, Crabronidae), und Bakterien aus der Familie der Actinomyceten. Die bakteriellen Symbionten sind an einem einzigartigen Ort zu finden: Sie werden in den Reservoiren spezialisierter Antennendrüsen weiblicher Bienenwölfe kultiviert. Das Weibchen sezerniert vor der Eiablage große Mengen dieser Bakterien in die unterirdischen Brutkammern. Wenn die Bienewolf-Larve einige Tage später ihre Nahrungsaufnahme an den von der Mutter als Nahrungsvorrat bereitgestellten Honigbienen beendet hat, nimmt sie die Bakterien auf und spinnt sie in ihren Kokon mit ein. Dort erfüllen die Symbionten eine wichtige Funktion, indem sie den Schimmelbefall herabsetzen und dadurch die Überlebenschancen der Larve im Kokon während der langen und gefährlichen Winterruhe signifikant erhöhen. Experimente, in denen Bienenwolf-Weibchen ohne die Bakterien aufgezogen wurden, und Beobachtungen an Bienenwolf-Larven deuten darauf hin, dass die Symbionten vertikal von der Mutter an die Töchter weitergegeben werden. Vermutlich werden die Bakterien während des Schlupfes oder kurz davor vom Kokon in die Antennendrüsen-Reservoire aufgenommen. Phylogenetische Untersuchungen von Wirten und Symbionten sowie Transfer-Experimente mit den Bakterien wären notwendig, um herauszufinden, ob ein horizontaler Austausch der Symbionten zwischen verschiedenen Bienenwolf-Arten möglich ist. Genetische Analysen zeigen, dass die Symbionten einer unbeschriebenen Art der Gattung Streptomyces innerhalb der Actinomyceten angehören. 16s rDNA Primer und eine fluoreszenzmarkierte Oligonukleotid-Sonde wurden entwickelt, um die Bienenwolf-Symbionten mittels PCR und Fluoreszenz-in-situ-Hybridisierung (FISH) spezifisch nachweisen zu können. Mit Hilfe von PCR und Sequenzierungen der 16s rDNA konnten nah verwandte Endosymbionten in den Antennen von 28 Arten und Unterarten der Gattung Philanthus festgestellt werden, nicht aber in anderen Gattungen der Unterfamilie Philanthinae (Aphilanthops, Clypeadon, Cerceris), so dass die Symbiose auf die Gattung Philanthus beschränkt zu sein scheint. Phylogenetische Untersuchungen auf der Grundlage nahezu kompletter 16s rDNA-Sequenzen belegen, dass die Symbionten aller analysierten Bienenwolf- Arten eine monophyletische Gruppe innerhalb der Gattung Streptomyces bilden, was darauf hindeutet, dass die Symbiose hoch spezifisch ist und wahrscheinlich das Ergebnis einer langen Koevolution und Kospeziation darstellt. Anhand von Sequenzunterschieden zwischen den Symbionten lässt sich das Alter der Assoziation zwischen Philanthus und Streptomyces auf etwa 26-67 Millionen Jahre schätzen, was der Entstehung der Gattung Philanthus entsprechen könnte. Auf der Basis von 16s rDNA Sequenzen und Ultrastruktur-Daten wurden die Antennensymbionten der Bienenwölfe als neues Taxon ‚Candidatus Streptomyces philanthi’ beschrieben, wobei die Symbionten verschiedener Wirtsarten als Ökotypen behandelt und nach der Wirtsart benannt wurden (z.B. ‚Candidatus Streptomyces philanthi triangulum’). Wie die Bakterien von der Assoziation mit Bienenwölfen profitieren, ist noch unklar. Auf jeden Fall wird ihnen vom Wirt eine unbesetzte und wahrscheinlich konkurrenzfreie ökologische Nische in den Antennen sowie eine zuverlässige Weitergabe an die nächste Generation garantiert. Außerdem sprechen einige Hinweise für eine Versorgung der Bakterien mit Nährstoffen durch den Bienenwolf: (1) Weibchen legen manchmal mehrere Brutkammern pro Tag an und sezernieren jedes Mal große Mengen an Bakterien; die Bakterien müssen sich also in den Drüsen-Reservoiren schnell vermehren, um den Vorrat an Symbionten wieder aufzufüllen. (2) Die Reservoire sind von Typ 3-Drüsenzellen umgeben, die die Bakterien mit Nährstoffen versorgen könnten. (3) Eine der Reservoir-Wände weist eine netzartige Struktur auf, die möglicherweise den Eintritt von Hämolymphe und damit von Nährstoffen in das Reservoir zulässt. Dies wird durch chemische Analysen der Kohlenwasserstoffe in der Hämolymphe und in dem Antennendrüsen-Sekret untermauert, die sehr ähnliche Zusammensetzungen aufweisen. Die Assoziation zwischen Bienenwölfen und Streptomyceten stellt den ersten bekannten Fall einer Symbiose dar, bei der Bakterien in den Antennen von Insekten kultiviert werden, und sie repräsentiert eines von wenigen Beispielen für Actinomyceten als Symbionten von Insekten. Weitere Untersuchungen evolutionärer und ökologischer Aspekte dieser Symbiose werden wertvolle Erkenntnisse über die Bedeutung von Actinomyceten für die Pathogen-Abwehr bei Insekten liefern und könnten sogar zur Entdeckung neuer Sekundärmetabolite mit antibiotischen Eigenschaften für die Verwendung in der Humanmedizin führen. CHEMISCHE KOMMUNIKATION UND PARTNERWAHL BEIM EUROPÄISCHEN BIENENWOLF Chemische Signale stellen sowohl die älteste als auch die am weitesten verbreitete Form von Kommunikation zwischen Organismen dar. Bei Insekten spielen Pheromone eine essentielle Rolle für die intraspezifische Kommunikation, und eine Vielzahl aktueller Untersuchungen belegt die Bedeutung olfaktorischer Signale für die Balz und Paarung. Die meisten dieser Studien konzentrieren sich jedoch auf Weibchen-Pheromone, während von Männchen produzierte Pheromone trotz ihrer ökologischen und evolutionären Bedeutung für die Partneranlockung und Partnerwahl bisher wenig Beachtung gefunden haben. Männchen des Europäischen Bienenwolfes etablieren und verteidigen Territorien, die sie mit einem Kopfdrüsen-Sekret markieren. Dieses Sekret wirkt höchstwahrscheinlich als ein Sex- Pheromon und lockt paarungsbereite Weibchen an. Da Männchen-Territorien meist aggregiert in der Nähe von Weibchennestern auftreten, haben die Weibchen die Möglichkeit, zwischen verschiedenen potenziellen Paarungspartnern zu wählen. Die chemischen Analysen der vorliegenden Arbeit zeigen, dass die Zusammensetzung und Menge des männlichen Markierpheromons vom Verwandtschaftsgrad, der Herkunft, dem Alter und der Größe der Männchen abhängen. Das Pheromon beinhaltet demnach Informationen über eine Vielzahl von Eigenschaften der Männchen, die für die Weibchenwahl von Bedeutung sein könnten. Sowohl die genetische Distanz („optimal outbreeding“) als auch die allgemeine genetische Qualität („good genes“) eines Männchens könnte die Partnerwahl der Bienenwolf-Weibchen beeinflussen. In dieser Arbeit für den Europäischen Bienenwolf entwickelte polymorphe Mikrosatelliten legen den Grundstein für Vaterschaftsanalysen und ermöglichen so die Durchführung und Auswertung von Experimenten zur Weibchenwahl bei dieser Art.
Regulation of mitotic progression : Focus on Plk1 function and the novel Ska complex at kinetochores
(2006)
During mitosis the duplicated chromosomes have to be faithfully segregated into the nascent daughter cells in order to maintain genomic stability. This critical process is dependent on the rearrangement of the interphase microtubule (MT) network, resulting in the formation of a bipolar mitotic spindle. For proper chromosome segregation all chromosomes have to become connected to MTs emanating from opposite spindle poles. The MT attachment sites on the chromosomes are the kinetochores (KTs), which are also required to monitor the integrity of KT-MT interactions via the spindle assembly checkpoint (SAC). The first part of this work concerns the action of Polo-like kinase 1 (Plk1). Plk1 is one of the most prominent mitotic kinases and is involved in the regulation of multiple essential steps during mitosis consistent with its dynamic localisation to spindle poles, KTs and the central spindle. Despite a nice model of Plk1 targeting to different mitotic structures via its phosphopeptide binding Polo-box domain (PBD), the exact molecular details of Plk1 functioning, in particular at the KTs, remain obscure. By two different approaches we obtained cells with an unlocalised Plk1 kinase activity: first by generating stable HeLa S3 cell lines, which upon induction expressed the PBD and thus displaced endogenous Plk1 from its sites of action. Secondly, by rescuing cells RNAi-depleted of Plk1 with the catalytic Plk1 domain only. Centrosome maturation, bipolar spindle assembly and loss of cohesion between the chromatid arms proceeded normally in either cells, in contrast to Plk1-depleted cells, arguing that PBD-mediated targeting of Plk1 is less critical for the tested functions. Remarkably, however, both the PBD expressing as well as the Plk1-depleted cells rescued with the catalytic domain of Plk1 arrested in early mitosis in a SAC-dependent manner with uncongressed chromosomes. These data disclose a so far unrecognised role of Plk1 in proper chromosome congression and point at a particular requirement for PBD-mediated localised Plk1 activity at the KTs. In the second part of the thesis, we characterised a novel spindle and KT associated protein, termed Ska1, which was originally identified in a spindle inventory. Ska1 associated with KTs following MT attachment during prometaphase and formed a complex with at least another novel protein of identical localisation, called Ska2. Ska1 was required for Ska2 stability in vivo and depletion of either Ska1 or Ska2 resulted in the loss of both proteins from the KTs. The absence of Ska proteins did not disrupt overall KT structure but most strikingly induced cells to undergo a prolonged SAC-dependent delay in a metaphase-like state. The delay was characterised by weakened kinetochore-fibre stability, recruitment of Mad2 protein to a few KTs and the occasional loss of individual chromosomes from the metaphase plate. These data indicate that the Ska1/2 complex plays a critical role in the maintenance of a KT-MT attachments and/or SAC silencing.
Best disease, also termed vitelliform macular dystrophy type 2, VMD2, (OMIM #153700), is an autosomal dominant, early onset macular dystrophy associated with a remarkable accumulation of lipofuscin-like material within and beneath the retinal pigment epithelium (RPE). The VMD2 gene mutated in Best disease encodes a 585 amino acid putative transmembrane protein named bestrophin, and is preferentially expressed in the RPE. The protein has a complex membrane topology with 4-6 putative transmembrane domains (TMDs) and is presumably involved in Ca2+-dependent transport of chloride ions across the membrane. The vast majority of known disease-associated alterations are missense mutations nonrandomly distributed across the highly conserved N-terminal half of the protein with clusters near the predicted TMDs. The mechanism connecting Best disease pathology with the identified mutations or the Cl- channel function is not yet clear. To further elucidate the biological function of the bestrophin protein and to identify the molecular mechanisms underlying the disease, a search for interacting partners of bestrophin was performed using the GAL4-based yeast two hybrid system (Y2H). Screening of a bovine RPE cDNA library with various truncated bestrophin baits resulted in the identification of 53 putative interacting partners of bestrophin. However, verification of the interaction has excluded all candidate clones. Our comprehensive Y2H analyses suggest that bestrophin may not be suitable for traditional yeast two hybrid screens likely due to the fact that the protein is integral to the membrane and even fragments thereof may not be transported to the nucleus which is, however a prerequisite for protein interaction in the yeast system. Bestrophin belongs to a large family of integral membrane proteins with more than 100 members identified to date originating from evolutionarily diverse organisms such as mammals, insects and worms. The most distinctive feature of the bestrophin family, besides the invariant RFP (arginine-phenylalanine-proline) domain, is an evolutionarily highly conserved N-terminal region. To clarify the phylogenetic relationship among bestrophin homologues and to identify structural and functional motifs conserved across family members, a bioinformatics/phylogenetic study of the conserved N-terminal region was conducted. Phylogenetic analysis of the bestrophin homologues reveals existence of four evolutionary conserved family members in mammals, with high homology to the human VMD2, VMD2-L1 to L3 proteins. The significant level of protein sequence similarity between divergent species suggests that each of the bestrophin family members has a unique, Chapter One: Summary 2 evolutionarily conserved function and that the divergence of bestrophin into several family members occurred before the divergence of individual mammalian species.
Clonality analysis in B-Cell Chronic Lymphocytic Leukemia (B-CLL) associated with Richter's syndrome
(2006)
B-cell chronic lymphocytic leukemia (B-CLL) comprises 90% of chronic lymphoid leukemias in Western countries and patients with B-CLL have a heterogeneous clinical course. Approximately 3-5% of B-CLL patients encounter transformation to an aggressive lymphoma, mainly diffuse large B-cell lymphoma (DLBCL) or Hodgkin’s lymphoma (HL) which has been defined as Richter’s syndrome and is associated with a poor clinical outcome. The mutational status of the immunoglobulin heavy chain variable region (IgVH) gene not only implies the developmental stage at which the neoplastic transformation occurs in a given B-cell lymphoma, but also constitutes an important prognostic factor in B-CLL, since B-CLL patients with unmutated IgVH genes usually have a poor clinical outcome. Sparse molecular analyses performed in Richter’s syndrome so far suggest that it can occur in B-CLL patients carrying mutated or unmutated IgVH genes, and tumor cells in DLBCL or HL can be clonally identical to the B-CLL clone or arise as an independent, secondary lymphoma. To determine the clonal relationship between DLBCL or Hodgkin/Reed-Sternberg (HRS) cells and pre-existing B-CLL cells in a larger series, to identify the IgVH gene usage and the mutational status and to explore possible prognostic factors in B-CLL undergoing Richter’s transformation, we utilized a PCR-based GeneScan approach with subsequent sequencing of the IgVH genes. In cases with HRS/HRS-like cells laser capture microdissection (LCM) was employed to isolate these cells. In addition, a thorough morphological and immunohistochemical analysis was performed. In total, specimens from 48 patients were investigated including 40 cases of Richter’s syndrome and additional 8 cases of B-CLL cases with the presence of CD30-positive HRS-like cells. Among 40 cases of Richter’s syndrome, 34 B-CLL cases showed transformation to DLBCL and 6 cases transformed from B-CLL to HL. Sequencing was performed in 23 paired B-CLL and DLBCL cases. In 18 cases, B-CLL and DLBCL were clonally identical, whereas DLBCL developed as a clonally independent neoplasm in 5 patients. Among the clonally related pairs, 11 out of 15 cases carried unmutated IgVH genes in both the B-CLL and DLBCL component, whereas 5 of 6 B-CLL cases that showed transformation to HL carried mutated IgVH genes. HRS cells in two samples and HRS-like cells in one sample were clonally distinct from the B-CLL clone and infected by EBV, whereas one sample of HRS-like cells was related to the clone from the surrounding B-CLL cells and did not express latent membrane protein-1 (LMP1). The VH genes VH3-23, VH3-74, VH1-2 and VH3-9 were overused in B-CLL cases that transformed to DLBCL, whereas VH4-34 and VH3-48 were used in over half of the B-CLL cases with transformation to HL. Immunohistochemical staining of ZAP70 was significantly associated with unmutated IgVH genes in B-CLL cases undergoing Richter’s transformation. Clinical follow-up data could be obtained from 24 patients. The median survival times of B-CLL patients with transformation to DLBCL or HL were 7 and 21 months, respectively. No significantly different survival times were found between clonally related or unrelated cases, or between IgVH-mutated or -unmutated cases. We conclude that in Richter’s transformation, DLBCL can evolve by clonal transformation of the pre-existing B-CLL clone or occur as an independent, clonally unrelated neoplasm. In the majority of cases (78% in our series), B-CLL and DLBCL are clonally identical. In a subset of patients, however, DLBCL develops as an independent secondary neoplasm that is not clonally related to the B-CLL. Clonal transformation into DLBCL predominantly occurs in B-CLL patients with unmutated IgVH genes, whereas most B-CLL patients that show transformation to HL or CD30-positive HRS-like cells carry mutated IgVH genes. The tendency that IgVH-unmutated B-CLL transforms to DLBCL and IgVH-mutated B-CLL transforms to HL implies different transformation pathways in the two subtypes of Richter’s syndrome. In addition, important pathogenetic differences are likely to exist between DLBCL cases derived from a pre-existing B-CLL as compared to de novo DLBCL cases, since de novo DLBCL is usually characterized by mutated IgVH genes. The biased usage of IgVH genes in the two subtypes of Richter’s syndrome suggests a possible role for antigen involvement in tumorigenesis also in B-CLL cases that undergo Richter’s transformation. Finally, EBV-association in the HL variant of Richter’s syndrome occurs more frequently in clonally unrelated secondary malignancies.
DNA microarrays have become a standard technique to assess the mRNA levels for complete genomes. To identify significantly regulated genes from these large amounts of data a wealth of methods has been developed. Despite this, the functional interpretation (i.e. deducing biological hypothesis from the data) still remains a major bottleneck in microarray data analysis. Most available methods display the set of significant genes in long lists, from which common functional properties have to be extracted. This is not only a tedious and time-consuming task, which becomes less and less feasible with increasing numbers of experimental conditions, but is also prone to errors, since it is commonly done by eye. In the course of this work methods have been developed and tested, that allow for a computerbased analysis of functional properties being relevant in the given experimental setting. To this end the Gene Ontology was chosen as an appropriate source of annotation data, because it combines human-readability with computer-accessibility of the annotations term and thus allows for a statistical analysis of functional properties. Here the gene-annotations are integrated in a Correspondence Analysis which allows to visualize genes, hybridizations and functional categories in a single plot. Due to the increasing amounts of available annotations and the fact that in most settings only few functional processes are differentially regulated, several filter criteria have been developed to reduce the number of displayed annotations to a set being relevant in the given experimental setting. The applicability of the presented visualization and filtering have both been validated on datasets of varying complexity. Starting from the well studied glucose-pathway in S. cerevisiae up to the comparison of different tumor types in human. In both settings the method generated well interpretable plots, which allowed for an immediate identification of the major functional differences between the experimental conditions [90]. While the integration of annotation data like GO facilitates functional interpretation, it lacks the capability to identify key regulatory elements. To facilitate such an analysis, the occurrence of transcription factor binding sites in upstream regions of genes has been integrated to the analysis as well. Again this methodology was biologically validated on S. cerevisiae as well human cancer data sets. In both settings TFs known to exhibit central roles for the observed transcriptional changes were plotted in marked positions and thus could be immediately identified [206]. In essence, integration of supplementary information in Correspondence Analysis visualizes genes, hybridizations and annotation data in a single, well interpretable plot. This allows for an intuitive identification of relevant annotations even in complex experimental settings. The presented approach is not limited to the shown types of data, but is generalizable to account for the majority of the available annotation data.
Human caretaker genes play a central role in the DNA damage response. Their defects cause a number of rare diseases which show genetic instability and increased propensity to malignant cell growth. The first of these diseases to be described in this thesis is Fanconi anemia (FA), a rare chromosome instability disorder with recessive inheritance characterized by progressive bone marrow failure, variable congenital malformations, and cancer predisposition. There are at least 13 FA complementation groups (FA-A, B, C, D1, D2, E, F, G, I, J, L, M and N), each representing mutations in a distinct gene. To date, except FANCI all the corresponding genes have been identified, denoted as FANC-A, B, C, D1/BRCA2, D2, E, F, G, J/BRIP1/BACH1, L/PHF9, M/Hef and N/PALB2.Further information is provided in chapters 1 and 2. FA cells are characterized by high sensitivity to DNA crosslinking agents and to elevated oxygen tension, but it is controversial whether they are also radiosensitive. Systematic testing (chapter 3) of primary skin fibroblast cultures from all currently known FA complementation groups revealed no increased sensitivity towards ionizing radiation (IR) and ultra-violet light (UV) when growing cells at physiological (5% v/v) oxygen levels. Despite considerable interstrain variations FA cells showed no systematic differences to cell cultures derived from healthy controls, whereas positive controls (Ataxia telangiectasia and Cockayne syndrome) proved highly sensitive to IR or UV. Lack of radiosensitivity was also shown for the FANCD2 gene, a central gene in the FA/BRCA pathway whose mutational inactivation was studied in a large patient cohort. FA patients excluded previously from complementation groups FA-A, -C, E, F, G or L were screened for mutations in FANCD2. Even though mutation analysis of FANCD2 is complicated by the presence of pseudogene regions, biallelic FANCD2 mutations were identified in a series of 32 patients (chapter 4). The predominant types of mutations result in aberrant splicing causing exon skipping, exonisation of intronic sequence, activation of cryptic and creation of new 3´ splice sites. Many alleles were recurrent and could be associated with ethnicity. Interestingly, residual FANCD2 protein was observed in all available patient cell lines, and functionality was indicated by the presence of the monoubiquitinated FANCD2 isoform. This suggests that viability of FA-D2 patients depends on the presence of hypomorphic or leaky mutations. In chapter 5 the worldwide second FA patient belonging to complementation group FA-L is reported. Genetic analysis of patient derived fibroblasts revealed heterozygosity for a 5-bp deletion (exon 7) and a missense substitution (exon 11). In contrast to the tested fibroblasts two independent lymphoid cell lines proved resistant to the DNA crosslinking agent mitomycin C and showed proficient FANCD2 monoubiquitination. The functional reversion due to a compensating mutation in the splice acceptor site results in aberrant splicing and the restoration of the open reading frame. However, the revertant mosaicsm was restricted to the lymphatic cell lines such that there was no clinical improvement involving the other hematopoietic cell lineages, and bone marrow transplantation was required to treat the patients bone marrow failure. A direct link of Fanconi anemia to other DNA repair processes was provided by the identification of the BRCA1 interacting protein 1, BRIP1/BACH1, as a genuine FA gene (chapter 6). Genetic mapping of consanguineous Inuit families resulted in the identification of truncating mutations in BRIP1. In contrast to most of the other FA patients FANCD2 monoubiquitination was intact, linking these patients to complementation group FA-J. Biallelic mutations in BRIP1 were found in eight additional patients, one of whom was assigned previously to FA-J by somatic cell fusion. Therefore it could be shown that the postulated FANCJ gene is identical with BRIP1. This finding emphasizes the close connection between the BRCA- and the FA-family of genes, both involved in the DNA damage response. Biallelic mutations in BRCA2/FANCD1 cause a severe form of Fanconi anemia with childhood malignancies. Recently, a BRCA2 interacting protein was identified as a “partner and localizer of BRCA2” (PALB2) which confers cellular MMC resistance. A candidate gene approach revealed biallelic mutations in seven FA patients that developed solid tumors in early childhood (chapter 7). Patient cells show no or little PALB2 protein, lack of MMC induced RAD51 foci formation, and high chromosomal instability. Transduction of PALB2 cDNA complemented the MMC sensitive phenotype. Therefore, biallelic mutations in PALB2 cause a new subtype of FA, denoted as FA-N, which is connected with a high and early cancer risk. With respect to one of the most prominent but least understood caretaker gene syndromes, Fanconi anemia, this thesis has expanded our knowledge as follows: 1. refutation of major cellular radiosensitivity of FA cell lines regardless of complementation group, 2. detection of hypomorphic mutations and residual protein levels as a prerequisite for viability of the FANCD2 gene, 3. description of the worldwide second patient belonging to complementation group FA-L whose lymphocytes exhibit a novel type of somatic reversion, 4. participation in the discovery and functional characterization of two novel FA genes (FANCJ and FANCN). The last chapter of the thesis deals with a DNA repair pathway that is activated following exposure to ionizing radation. One of the central proteins responding to radiation-induced DNA damage is the product of the ATM gene which signals to a myriad of other proteins in response to DNA double strand breaks, including the NMR complex. This complex formed by the NBS1/MRE11/RAD50 proteins is thought to act as a specifi c sensor of DNA double-strand breaks. Mutations of MRE11 and NBS1 are associated with the radiation sensitivity syndromes Ataxia-telangiectasia-like disorder (AT-LD) and Nijmegen breakage syndrome (NBS), respectively. Chapter 8 presents the first ever identified patient with RAD50 deficiency due to biallelic germline mutations in the RAD50 gene. An 18-year-old German girl who has a variant form of NBS without immunodeficiency was found to be compound heterozygous for a nonsense mutation and the loss of the natural termination signal in the RAD50 gene. RAD50 protein expression was reduced to less than one tenth of normal in her fibroblasts and lymphoblastoid cells. At the nuclear level, RAD50 deficiency was associated with a high frequency of spontaneous chromatid exchanges and with the failure to form MRE11 and NBS1 nuclear foci in response to irradiation. ATM autophosphorylation, phosphorylation of p53 at serine 15 and the transcriptional induction of p21/WAF1 mRNA were reduced, and there was no evidence for Ser343 phosphorylation of NBS1 in RAD50 defi cient cells following irradiation. These defects could be complemented by expression of wildtype RAD50 cDNA. Our data shows that RAD50 modulates, like NBS1 and MRE11, the ATM-mediated DNA damage response and the G1/S cell cycle checkpoint. In addition, RAD50 appears to be required for nuclear localization of MRE11, and for NBS1 focus formation, underlining its importance for the proper function of the NMR complex. Owing to the studies performed within the framework of this thesis, RAD50 deficiency can now be added to the growing list of human caretaker gene syndromes with pronounced radiosensitivity that is distinctive at both the cellular and the clinical level from deficiencies involving the other members of the NMR complex.
Neural crest cells and sensory neurons are two prominent cell populations which are induced at the border between neural and non-neural ectoderm during early vertebrate development. The neural crest cells are multipotent and highly migratory precursors that give rise to face cartilage, peripheral neurons, glia cells, pigment cells and many other cell types unique to vertebrates. Sensory neurons are located dorsally in the neural tube and are essential for sensing and converting environmental stimuli into electrical motor reflexes. In my PhD thesis, I obtained novel insights into the complex processes of cell induction at the neural plate border by investigating the regulation and function of mdkb in zebrafish. First, it was possible to demonstrate that mdkb expression is spatiotemporally correlated with the induction of neural crest cells and primary sensory neurons at the neural plate border. Second, it became evident that the expression of mdkb is activated by known neural crest cell inducing signals, like Wnts, FGFs and RA, but that it is independent of Delta-Notch signals essential for lateral inhibition. Knockdown experiments showed that mdkb function is necessary for induction of neural crest cells and sensory neurons at the neural plate border, probably through determination of a common pool of progenitor cells during gastrulation. The present study also used the advantages of the zebrafish model system to investigate the in vivo function of all midkine gene family members during early brain development. In contrast to the situation in mouse, all three zebrafish genes show distinct expression patterns throughout CNS development. mdka, mdkb and ptn expression is detected in mostly non-overlapping patterns during embryonic brain development in the telencephalon, the mid-hindbrain boundary and the rhombencephalon. The possibility of simultaneously knocking down two or even three mRNAs by injection of morpholino mixtures allowed the investigation of functional redundancy of midkine factors during brain formation. Knockdown of Midkine proteins revealed characteristic defects in brain patterning indicating their association with the establishment of prominent signaling centers such as the mid-hindbrain boundary and rhombomere 4. Interestingly, combined knockdown of mdka, mdkb and ptn or single knockdown of ptn alone prevented correct formation of somites, either by interfering with the shifting of the somite maturation front or interferance with cell adhesion in the PSM. Thus, Ptn was identified as a novel secreted regulator of segmentation in zebrafish.
Microtubules are a fascinating component of the cellular scaffold protein network, the cytoskeleton. These hollow tubular structures are assembled of laterally associated proto-filaments containing ab-tubulin heterodimers in a head to tail arrangement. Accordingly microtubules have a defined polarity, which sets the base for the polarity of the cell. The microtubule lattice can be arranged in two conformations: In the more abundant B-lattice conformation, where the protofilaments interact laterally through a- to a- and b- to b-tubulin contacts and in the less stable A-lattice conformation, where a-tubulin interacts laterally with b-tubulin. In cells the microtubules generally contain 13 protofilaments of which usually one pair interacts in the A-lattice conformation, forming the so-called lattice seam. Microtubule dynamics and interactions are strongly regulated by micro-tubule associate proteins (MAPs). Structural investigations on MAPs and microtubule associated motor proteins in complex with microtubules have become possible in combination with modern electron microscopy (EM) and image processing. We have used biochemistry and different advanced EM techniques to study the interaction between microtubules and the MAP Mal3p in vitro. Mal3p is the sole member of the end-binding protein 1 (EB1) protein family in the fission yeast Schizosaccharomyces pombe. Previous in vivo studies have shown that Mal3p promotes microtubule growth. Our studies with high-resolution unidirectional shadowing EM revealed that Mal3p interacts with the microtubule lattice in a novel way, using binding sites on the microtubule that are different from those reported for other MAPs or motor proteins. Full-length Mal3p preferentially binds between two protofilaments on the microtubule lattice, leaving the rest of the lattice free. A case where Mal3p was found in two adjacent protofilament, revealed an A-lattice conformation on the microtubules, surprisingly indicating specific binding of Mal3p to the microtubule seam. With a lattice enhancer, in form of a b-tubulin binding kinesin motor domain, it was demonstrated that Mal3p stabilizes the seam which is thought to be the weakest part of a microtubule. Further, the presence of Mal3p during microtubule polymerization enhances the closure of protofilament sheets into a tubular organization. Cryo-EM and 3-D helical reconstruction on a monomeric microtubule binding domain of Mal3p, confirm the localization in between the protofilament and result in an accurate localization on the microtubule lattice. The results also indicate Mal3p’s capacity to influence the microtubule lattice conformation. Together, studies approached in vitro demonstrate that an EB1-family homolog not only interacts with the microtubule plus end, but also with the microtubule lattice. The structure of Mal3p interacting with microtubules reveals a new mechanism for microtubule stabilization and further insight on how plus end binding proteins are able promote microtubule growth. These findings further suggest that microtubules exhibit two distinct reaction platforms on their surface that can independently interact with selected MAPs or motors.
Sumoylation of transcription factors modulate their activity (either upregulating or downregulating) by altering protein-protein interactions as well as subcelluar/subnuclear localization. The transcription factor family of NFAT (Nuclear Factor of Activated T cells) plays an important role in cytokine gene regulation in T cells. Due to alternative usage of two promoters (P1 & P2), two polyadenylation sites (pA1 and pA2) and alternative splicing events, NFATc1 is expressed in six isoforms which are NFATc1/alphaA, betaA, alphaB, betaB, alphaC and betaC, where alpha and beta refer to two different 1st exons and A, B, C to the differentially spliced and extended C-termini. The short isoforms of NFATc1 (NF-ATc1/A) contain a relatively short C terminus whereas, the longer isoforms, B and C, span the extra C-terminal peptides of 128 and 246 aa, respectively. To analyze the specific biological effects of NFATc1 isoform, a yeast two hybrid screening of a human spleen cDNA library with extra C-terminal peptide of NFATc1 as a bait, was performed. At the end of the assay, the proteins involved in the sumoylation pathway such as Ubc9, PIAS1 were detected with highest frequencies and subsequently were were able to demonstrate that NFATc1 is sumoylated. The extent of sumoylation is isoform specific. While NFATc1/A, harboring only one sumoylation site, shows very weak sumoylation, the two additional sites within NFATc1/C lead to efficient sumoylation. This modification directs NFATc1/C into SUMO-1 bodies, which in turn colocalize with PML-nbs. Furthermore, sumoylated NFATc1/C recruits the transcriptional co-repressors HDAC (both class I as well as class II HDACs) which results in a significant decrease of the level of histone acetylation on the IL-2 promoter, an important NFATc1 target gene. As a consequence of this, a decrease of IL-2 production was observed, while NFATc1/C, which can no longer be sumoylated due to mutating the target lysines, exhibited dramatic elevated transcriptional potential on the IL2 promoter. This supports our finding from IL-2 promoter-driven reporter gene assay, which shows downregulation of NFATc1/C transactivation upon sumoylation. Hence, sumoylation exerts a negative effect on NFATc1 transcriptioanl activity. Immunofluorescence studies showed SUMO modification to relocate NFATc1/C also into transcriptionally inactive heterochromatin regions, demonstrated by H3K9 m3 (tri-methylated histone lysine 9) colocalization studies. Interestingly, in the absence of sumoylation, NFATc1 was partially colocalized with transcriptional hotspots in the nucleus, which might contribute to the higher transcription potentiality of the non-sumoylated NFATc1. It is important to note that, the transcriptional activity of other NFATc1 target genes (IL-13, IFN-gamma etc.) was positively upregulated upon sumoylation of NFATc1, suggesting a non-universal effect of sumoylation on NFATc1/C function. In conclusion, sumoylation directs NFATc1 into nuclear bodies where it interacts with transcriptional co-repressors and relocalize itself with heterochromatin, leading to repression of NFATc1/C-mediated transcription. Most importantly, the effect of NFATc1/C sumoylation is promoter specific. Taken together, SUMO modification alters the function of NFATc1 from an activator to a site-specific transcriptional repressor. This study unraveled a novel regulatory mechanism, which controls isoform specific NFATc1 function.
Aggression is a strikingly multi-faceted phenomenon occurring in vertebrates as well as in invertebrates. Despite its omnipresence, the neuronal basis of aggressive behaviours is yet barely understood. Many studies however, imply a role for biogenic amines in aggression. This PhD project aimed at contributing to the understanding of the neuronal correlates of aggression, with a main focus on the biogenic amine octopamine, using Drosophila melanogaster as the model system. In Drosophila, agonistic encounters of males and females are composed of a variety of both offensive and defensive components, some of which are displayed more often in one sex than in the other. To simplify analysis and to standardize evaluation, I chose to focus on a single indicator of aggression: the lunge, a striking feature unique to Drosophila male aggression. By evaluating the lunge I developed in cooperation with Andreas Eckart for the first time an automated, video-based analysis of Drosophila male aggression. The present software program gives the number of lunges for each fly in a certain time interval. In addition, it provides information such as the distance the fly walked and his size among others. In combination with a second software program that we developed, aggressive interactions between two male Drosophila melanogaster of a genotype of choice can now be registered either completely automatically or if preferred semi-automatically. Using these softwares, I demonstrate that (1) body size differences of 8% and higher influence the outcome of a fight in favour of the larger male; (2) walking activity alters lunge frequency with more lunges performed by more active pairs of males; (3) flies mutant for the white gene, one member of the ABC transporter family in Drosophila, are profoundly impaired in aggression, an effect that is partially due to reduced visual performance. (4) Either knocking-down white in various brain regions or chemically ablating the mushroom body located in the central brain by deleting its neuroblast precursors diminishes aggression, indicating that integrity of various neural circuits/brain regions is required for wild-type aggression to occur. Furthermore, I show that (5) flies lacking octopamine signalling but having altered tyramine signalling display hardly any lunge. A quantitative high-speed analysis revealed that lunge execution is almost indistinguishable from wild-type males. The results from the experiments in which octopamine levels and/or tyramine levels were restored suggest that an elaborate pattern of octopamine levels in time and space is required to enable flies to express wild-type aggressive behaviour.
The process of sex-determination can be better understood through examinations of developing organs and cells, which are involved in the formation of undifferentiated gonad. This mechanisms show in fish a broad variety, ranging from hermaphroditism to gonochorism and environmental to genetic sex determination. Hormones and abiotic factors such as temperature and pH can influence teleost development and reproductive traits. These factors are vulnerable to pollutants and climate changes. Therefore, it is important to examine gonad development and sex-determination/differentiation in teleost fish. Teleost fish are the largest known group of vertebrates with approximately 25,000 species and are used for such kind of examinations as model organisms. Recently, in Oryzias latipes (medaka), dmrt1bY (or dmy), a member of the Dmrt gene family, has been described as testis-determining gene. However, this gene is not the universal master sex-determining gene in teleost fish. Although dmrt1bY is present in the most closely related species of the genus, namely Oryzias curvinotous, it is absent from other Oryzias species, like Oryzias celebensis, and other fish. During my thesis, I studied gonad development in medaka and in the closely related species Oryzias celebensis. Germ cell specification in medaka seems to be dependent on maternally provided cytoplasmatic determinants, so called germ plasm. Nanos and vasa are such germ cell specific genes. In zebrafish they are asymmetrically localized in the early embryo. I have shown that nanos mRNA is evenly distributed in the early embryo of medaka. A similar pattern has been already described for the medaka vasa homolog, olvas. This suggests differences in PGC specification in zebrafish and medaka. Further, the vasa homolog was isolated and the expression pattern examined in O. celebensis. The results show that it can be used as a germ cell specific marker. Additionally, the primordial germ cell migration in O. celebensis was followed, which is similar to medaka PGC migration. Primordial germ cell migration in vertebrates is dependent on the chemokine stromal cell-derived factor 1 (Sdf-1). Medaka has two different sdf-1 genes, sdf-1a and sdf-1b. Both genes are expressed in the lateral plate mesoderm (LPM). During late embryonic development, I could show that sdf-1a is expressed in newly formed somites and not longer in the LPM. Sdf-1b expression persisted in the posterior part of the lateral plate mesoderm in the developing gonad. In terms of early and late functions, this suggests subfunctionalization of sdf-1a and sdf-1b. In “higher” vertebrates, genes that are involved in the process of gonad development have been studied in detail, e.g. Wt1, Sox9, and Amh. I have analyzed the expression pattern of wt1 and sox9 co-orthologs and amh. In both, the medaka and O. celebensis, wt1a transcripts were localized in the LPM and its expression was similar to sdf-1a gene expression in medaka. Wt1b expression was restricted to the developing pronephric region. During later embryonic development, wt1a is specifically expressed in the somatic cells of the gonad primordium in both sexes. This is the first time that in fish wt1 gene expression in developing gonads has been described. Therefore, this result suggests that wt1a is involved in the formation of the bipotential gonad. Furthermore, I have analyzed the gonad specific function of the wt1 co-orthologs in medaka. I could show that a conditional co-regulation mechanism between Wt1a and Wt1b ensures PGC maintenance and/or survival. The expression of sox9 genes in medaka and sox9b in O. celebensis were detected in the somatic cells of the gonad primordium of both sexes. Additionally, I have shown that amh and amhrII in medaka are expressed in somatic cells of the gonad primordium of both sexes. This suggests that sox9b, amh and amhrII are involved in gonad development and have specific functions in the adult gonad. In O. celebensis I could detect an expression of dmrt1 already six days after fertilization in half of the embryos, which is similar to the dmrt1bY expression in medaka. Whether the expression of dmrt1 is male specific in O. celebensis is currently under investigation. Altogether, the obtained results provide new insights into gene expression patterns during the processes of gonad development. Furthermore, no differences in the expression pattern of wt1a and sox9b during gonad development between the medaka and O. celebensis could be detected. This might indicate that the genetic mechanisms during gonad development are similar in both species.
B cells play diverse roles in the immunopathogensis of autoimmune diseases several approaches targeting B cell directly or indirectly are in clinical practice in the treatment of autoimmunity. In this regard, temporal B cell depletion by rituximab (anti CD20 antibody) is being appreciated and gaining more importance in recent years. To date, little is known about the regeneration profile of B cells following B cell depletion. We wanted to investigate the early replenishing B cells and examine the dynamic changes in the repertoire. we studied the immunoglobulin receptor (IgR) modulation of Ig-VH4 genes as representative of the heavy chain family. Five patients were included in the study and therapy induced alterations were assessed. Three time points namely before therapy, early regeneration phase (ERP- the early time point during regeneration where just above 1% B cells were found in the peripheral lymphocyte pool) and later regeneration phase (LRP- which commenced 2-3 months following ERP) were chosen. In three patients (A-C), Ig-VH4 genes were amplified from total genomic DNA during the above-mentioned all time points and in another two patients (D and E), Ig genes during ERP were studied by single cell amplification technique. Firstly, B cell regeneration followed the characteristic regeneration pattern as reported by several groups, with a predominant circulation of CD38hi expressing plasma cells and immature B cells in the ERP. During LRP, the proportion of these cells reduced relatively and the levels of naïve B cells rose gradually. On a molecular level, Ig-VH4 variable gene usage prior and post B cell depletion was determined and it was noticed that a diverse set of Ig-VH4 genes were employed in the repertoire before and after therapy. Mini gene segments such as VH4-34 and VH-4-39, which were reported to be connected with autoimmunity, were over expressed in the B cell repertoire before therapy. Profound changes were noticed in the early reemerging repertoire with a relatively increased population of intensely mutated B cells. These B cells acquired >=9 mutations in the Ig genes. Immunophenotyping with specific surface markers revealed that these highly mutated B cells evolve from the isotype-switched memory compartment especially the plasma cells. To support the hypothesis that the highly mutated B cells observed during ERP were plasma cells we carried out single cell amplification of individual plasma cells in another two patients during ERP and compared the mutational load, which remained similar. Actually plasma cells do not express CD20 on their surface and are not eliminated by rituximab therapy. However they were not observed in the peripheral blood following B cell depletion. The earliest time point when plasma cells are found again in peripheral circulation is the early recovery period (ERP). Therefore, it was intriguing to ascertain if the plasma cells were also modulated by rituximab therapy although they were not directly targeted by the therapy. We investigated if there is a therapy mediated mutational modulation of the plasma cells though these are not directly targeted by the therapy. We examined the confinement of mutations to the pre-defined RGYW/WRCY hotspot motifs (R=purine, Y=pyrimidine, W=A/T) in the plasma cells, which provides information on the involvement of T cells in B cell somatic hypermutation (SHM). Plasma cells before rituximab manifested the characteristics of active disease, which was revealed by restricted mutational targeting to the RGYW/WRCY motifs. The reemerging plasma cells during ERP had an increased targeting of the RGYW/WRCY motifs which indicated for a more pronounced T cell mediated B cell mutations which is the scenario observed in the healthy subjects. To further support the hypothesis of rituximab-mediated plasma cell modulation, we delineated the replacement to silent mutations ratio (R/S) in the hypervariable regions (CDRs) of the plasma cell Ig sequences. Within our study, the mean R/S ratio in the plasma cell CDRs of the patient group was relatively low (1.87) before rituximab treatment and interestingly this ratio increased significantly in the recirculating plasma cells to values of 2.67 and 3.60 in ERP and LRP status respectively. The increase in R/S ratios in reemerging plasma cells can be interpreted as a shaping of the Ig-repertoire by positive antigen selection as seen in healthy individuals. To conclude, our study demonstrates temporal B cell depletion by rituximab therapy seems to modulate also the plasma cell compartment, which is not directly targeted by the therapy. Modulation of plasma cells in RA could be also used as a potential biomarker in studying the effective response in RA treatment. This needs to be further explored to gain deeper insights into the underlying processes, which may be influenced by future therapies.
Since the fruit fly Drosophila melanogaster entered the laboratories as a model organism, new genetic, physiological, molecular and behavioral techniques for the functional analysis of the brain rapidly accumulated. Nowadays this concerted assault obtains its main thrust form Gal4 expression patterns that can be visualized and provide the means for manipulating -in unrestrained animals- groups of neurons of the brain. To take advantage of these patterns one needs to know their anatomy. This thesis describes the Virtual Insect Brain (VIB) protocol, a software package for the quantitative assessment, comparison, and presentation of neuroanatomical data. It is based on the 3D-reconstruction and visualization software Amira (Mercury Inc.). Its main part is a standardization procedure which aligns individual 3D images (series of virtual sections obtained by confocal microscopy) to a common coordinate system and computes average intensities for each voxel (volume pixel). The VIB protocol facilitates direct comparison of gene expression patterns and describes their interindividual variability. It provides volumetry of brain regions and helps to characterize the phenotypes of brain structure mutants. Using the VIB protocol does not require any programming skills since all operations are carried out at a (near to) self-explanatory graphical user interface. Although the VIB protocol has been developed for the standardization of Drosophila neuroanatomy, the program structure can be used for the standardization of other 3D structures as well. Standardizing brains and gene expression patterns is a new approach to biological shape and its variability. Using the VIB protocol consequently may help to integrate knowledge on the correlation of form and function of the insect brain. The VIB protocol provides a first set of tools supporting this endeavor in Drosophila. The software is freely available at http://www.neurofly.de.
The Ras/RAF/MEK/ERK cascade is a central cellular signal transduction pathway involved in cell proliferation, differentiation, and survival where RAF kinases are pivotal kinases implicated in cancer. The development of specific irreversible kinase inhibitors is a rewarding but difficult aim. CI-1033 was developed to irreversibly inhibit erbB receptor tyrosine kinases by reacting to the Cys113 residue (p38alpha MAP kinase numbering) of the kinase domain. In this study we tried a similar approach to target the RAF oncoproteins which posses a similar cysteine at position 108 in the hinge region between the small n-lobe and the large c-lobe of the kinase domain. A novel synthetic approach including a lyophilization step allowed us the synthesis of a diphenyl urea compound with an epoxide moiety (compound 1). Compound 1 possessed inhibitory activity in vitro. However our time kinetics experiments and mass spectroscopic studies clearly indicate that compound 1 does not react covalently with the cysteine residue in the hinge region. Moreover, in cell culture experiments, a strong activation of the RAF signaling pathway was observed, an effect which is known from several other RAF kinase inhibitors and is here reported for the first time for a diphenyl urea compound, to which the clinically used unspecific kinase inhibitor BAY 43-9006 (Sorafinib, Nexavar) belongs. Although activation was apparently independent on B- and C-RAF hetero-oligomerization in vitro, in vivo experiments support such a mechanism as the activation did not occur in starved knockout cells lacking either B-RAF or C-RAF. Furthermore, we developed a mathematical model of the Ras/RAF/MEK/ERK cascade demonstrating how stimuli induce different signal patterns and thereby different cellular responses, depending on cell type and the ratio between B-RAF and C-RAF. Based on biochemical data for activation and dephosphorylation, we set up differential equations for a dynamical model of the Ras/RAF/MEK/ERK cascade. We find a different signaling pattern and response result for B-RAF (strong activation, sustained signal) and C-RAF (steep activation, transient signal). We further support the significance of such differential modulatory signaling by showing different RAF isoform expression in various cell lines and experimental testing of the predicted kinase activities in B-RAF, C-RAF as well as mutated versions. Additionally the effect of the tumor suppressor DiRas3 (also known as Noey2 or ARHI) on RAF signaling was studied. I could show that DiRas3 down-regulates the mitogenic pathway by inhibition of MEK, a basis for a refined model of the Ras/RAF/MEK/ERK cascade.
The live sciences currently undergo a paradigm shift to computer aided discoveries. Discoveries in the live sciences were historically made by either direct observation or as a result of chemical assays. Today we see a growing shift toward computer aided analysis and visualization. This gradual process happens in microscopy. Multidimensional laser scanning microscopy can acquire very complex multichannel data from fixed or live specimen. New probes such as visible fluorescent proteins let us observe the expression of genes and track protein localization. Ion sensitive dyes change intensity with the concentration of ions in the cell. The laser scanning confocal allows us to record these processes in three dimensions over time. This work demonstrates the application of software analysis to multidimensional microscopy data. We introduce methods for volume investigation, ion flux analysis and molecular modeling. The visualization methods are based on a multidimensional data model to accommodate complex datasets. The software uses vector processing and multiple processors to accelerate volume rendering and achieve interactive rendering. The algorithms are based on human visual perception and allow the observer a wide range of mixed render modes. The software was used to reconstruct the pituitary development in zebrafish and observe the degeneration of neurons after injury in a mouse model. Calicum indicator dyes have long been used to study calcium fluxes. We optimized the imaging method to minimize impact on the cell. Live cells were imaged continuously for 45 minutes and subjected to increasing does of a drug. We correlated the amplitude of calcium oscillations to increasing doses of a drug and obtain single cell dose response curves. Because this method is very sensitive and measures single cell responses it has potential in drug discovery and characterization. Microtubules form a dynamic cytoskeleton, which is responsible for cell shape, intracellular transport and has an integral role in mitosis. A hallmark of microtubule organization is lateral interactions. Microtubules are bundles by proteins into dense structures. To estimate the contribution of this bundling process, we created a fractal model of microtubule organization. This model demonstrates that morphology of complex microtubule arrays can be explained by bundling alone. In summary we showed that advances in software for visualization, data analysis and modeling lead to new discoveries.
Background: The frequency of the most observed cancer, Non Hodgkin Lymphoma (NHL), is further rising. Diffuse large B-cell lymphoma (DLBCL) is the most common of the NHLs. There are two subgroups of DLBCL with different gene expression patterns: ABC (“Activated B-like DLBCL”) and GCB (“Germinal Center B-like DLBCL”). Without therapy the patients often die within a few months, the ABC type exhibits the more aggressive behaviour. A further B-cell lymphoma is the Mantle cell lymphoma (MCL). It is rare and shows very poor prognosis. There is no cure yet. Methods: In this project these B-cell lymphomas were examined with methods from bioinformatics, to find new characteristics or undiscovered events on the molecular level. This would improve understanding and therapy of lymphomas. For this purpose we used survival, gene expression and comparative genomic hybridization (CGH) data. In some clinical studies, you get large data sets, from which one can reveal yet unknown trends. Results (MCL): The published proliferation signature correlates directly with survival. Exploratory analyses of gene expression and CGH data of MCL samples (n=71) revealed a valid grouping according to the median of the proliferation signature values. The second axis of correspondence analysis distinguishes between good and bad prognosis. Statistical testing (moderate t-test, Wilcoxon rank-sum test) showed differences in the cell cycle and delivered a network of kinases, which are responsible for the difference between good and bad prognosis. A set of seven genes (CENPE, CDC20, HPRT1, CDC2, BIRC5, ASPM, IGF2BP3) predicted, similarly well, survival patterns as proliferation signature with 20 genes. Furthermore, some bands could be associated with prognosis in the explorative analysis (chromosome 9: 9p24, 9p23, 9p22, 9p21, 9q33 and 9q34). Results (DLBCL): New normalization of gene expression data of DLBCL patients revealed better separation of risk groups by the 2002 published signature based predictor. We could achieve, similarly well, a separation with six genes. Exploratory analysis of gene expression data could confirm the subgroups ABC and GCB. We recognized a clear difference in early and late cell cycle stages of cell cycle genes, which can separate ABC and GCB. Classical lymphoma and best separating genes form a network, which can classify and explain the ABC and GCB groups. Together with gene sets which identify ABC and GCB we get a network, which can classify and explain the ABC and GCB groups (ASB13, BCL2, BCL6, BCL7A, CCND2, COL3A1, CTGF, FN1, FOXP1, IGHM, IRF4, LMO2, LRMP, MAPK10, MME, MYBL1, NEIL1 and SH3BP5; Altogether these findings are useful for diagnosis, prognosis and therapy (cytostatic drugs).
Interleukin-5 (IL-5) is a member of the hematopoietic class I cytokines and is specifically involved in eosinophil activation. IL-5 plays an important role in disease conditions such as allergic asthma and other hypereosinophilias, which are characterized by highly increased levels of eosinophils in peripheral blood and tissues. The IL-5 receptor is a heterodimer consisting of a binding alpha subunit (IL- 5Rα) and a common beta subunit (IL-5Rβ). This IL-5Rβ is shared with the IL-3 and GM-CSF receptors. The IL-5Rα is required for ligand-specific binding, whereas the association of the IL-5Rβ subunit triggers intracellular signal transduction. Previous studies have described the crystallographic structure of human IL-5 (hIL-5), as well as that of the common IL-5Rβ chain (IL-5Rβc) However, no experimental structural data are yet available for the interaction of the high-affinity IL-5 receptor IL-5Rα with its ligand IL-5. Therefore, this thesis had the principle objective to gain new insights into the basis of this important agonist-receptor interaction. In particular, data on the recombinant expression, purification and preparation of the binary complex of hIL-5 bound to the receptor ectodomain of hIL-5Rα are shown, as well as the subsequent crystal structure analysis of the binary ligand-receptor (hIL-5Rα/hIL-5) complex. Both proteins were expressed in an Escherichia coli expression system, purified to homogeneity, and crystallized. However, since the initial analysis of these crystals did not show any X-ray diffraction, each step of the preparation and crystallization procedure had to be stepwise optimized. Several improvements proved to be crucial for obtaining crystals suitable for structure analysis. A free cysteine residue in the N-terminal domain of the hIL-5Rα ectodomain protein was mutated to alanine to remove protein heterogeneity. In addition, hIL-5 affinity chromatography of the receptor protein proved to be absolutely crucial for crystal quality. Additive screening using the initial crystallization condition finally yielded crystals of the binary complex, which diffracted to 2.5Å resolution and were suitable for structure analysis. The preliminary structure data demonstrate a new receptor architecture for the IL-5Rα ligand-binding domain, which has no similarities to other cytokine class I receptor structures known so far. The complex structure demonstrates that the ligand-binding region of human IL-5Rα is dispersed over all three extracellular domains, and adopts a binding topology in which the cytokine recognition motif (CRM) needs the first Fn-III domain of the human IL-5Rα to bind the ligand. In a second project, a prokaryotic expression system for murine IL-5 (mIL-5) was established to allow the production of mIL-5 and mIL-5 antagonist that should facilitate functional studies in mice. Since the expression of mIL-5 in E. coli had never been successful so far, a fusion protein system was generated expressing high yields of mIL-5. Chemical cleavage with cyanogen bromide (CNBr) was used to release mIL-5 monomers, which were subsequently purified and refolded. This technique yielded an active murine IL-5 dimer as confirmed by TF-1 cell proliferation assays. The protein was crystallized and the structure of mIL-5 could be determined at 2.5Å resolution. The molecular structure revealed a symmetrical left-handed four helices bundle dimer similar to human IL-5. Analysis of the structure-/function relationship allowed us to design specific mIL-5 antagonist molecules, which are still under examination. Taken together, these findings provide further insights in the IL-5 and IL-5R interaction which may help to further understand and depict this and other cytokine-receptor interactions of similar architecture, e.g. the IL-13 ligand-receptor system. Ultimately, this may represent another piece of puzzle in the attempts to rationally design and engineer novel IL-5-related pharmacological therapeutics.
The Guinea savanna-forest mosaic of West Africa is particularly rich in animal-dispersed plants. African savannas harbour the richest dung beetle community worldwide. The role of primates and dung beetles in natural plant regeneration and biodiversity maintenance in this ecosystem, however, is still poorly understood. The present study on olive baboons (Papio anubis Lesson 1827, Cercopithecinae) at Comoé National Park (CNP), north-eastern Ivory Coast, revealed that western olive baboon populations differ in several ways from their eastern conspecifics. Baboons are commonly regarded as predators of the seeds of their food plants. In the savanna-forest mosaic of West Africa, however, they are highly frugivorous and are important seed dispersers of a high number of woody plant species that differ in fruit type and seed size. They disperse intact seeds of at least 22% of the woody plant species of the regional plant pool. Their "seed dispersal potential", regarding seed number and seed sizes, is comparable to that of the much larger great apes. Relative to the availability in the regional pool of woody plant species, baboons preferred trees to shrubs and lianas as fruit sources and especially included larger fruit into their diet. Among several morphological fruit traits investigated, fruit type and fruit colour best described whether baboons included a species into their diet, whereas fruit type and seed size best predicted whether baboons predated upon the seeds of a food plant species. Seed size is an important plant fitness trait that can influence several steps between fruiting and the establishment of a plant´s offspring. Seed size can vary considerably within and among individuals of the same species. Primates may select for certain seed sizes within a species for a number of reasons, e.g. to decrease indigestible seed load or to increase pulp intake per fruit. Within eight out of ten plant species investigated, which differed in fruit type, seed number and seed size, olive baboons were selective in fruit choice regarding seed size. Seed size selection by olive baboons seems to be influenced, among other traits, by the amount of pulp rewarded per fruit relative to seed load, which varies with fruit and seed shape. Being a habitat generalist (with a preference for forest habitats) and able to move comparatively long distances, the olive baboon might be especially important for the biodiversity maintenance of distant forest islands. Because most woody plant species at the study site had medium-sized to large fruits and seeds, olive baboons may be crucial for seed dispersal and plant recruitment in this ecosystem. Their importance for seed dispersal of plants with small fruits should not, however, be underrated. Observation of frugivores at a typical "bird-dispersed" tree species showed that classification of seed dispersers on the basis of fruit syndromes alone can be misleading. Olive baboons disperse seeds in their faeces in a clumped manner, which generally is regarded disadvantageous for plants. Yet, seeds from all plant species being naturally present in baboon dung during seasonal peaks of dung beetle activity apparently can be scattered locally by dung beetles. Dung beetle activity at baboon faeces deposited in the two habitats was high, totalling 99 species from 26 genera. The probability and pattern of secondary seed dispersal by dung beetles depend on the structure and composition of the dung beetle community, which, in turn, seems to be strongly determined by vegetation type. I thus expected pronounced differences in secondary seed dispersal by dung beetles between seeds deposited by baboons in the savanna and in the forest. Experiments indicated that compared to seeds dispersed by baboons into the forest, seeds that end up in the savanna generally have a higher probability of (a) being removed by dung beetles, (b) being horizontally scattered by telecoprids, (c) being rapidly removed from the place of primary deposition and (d) being secondarily dispersed over larger distances. In general, savanna plants and plant habitat generalists the seeds of which baboons disperse into the savanna should profit most from secondary seed dispersal by dung beetles.
Vertebrate and invertebrate visual systems exhibit similarities in early stages of visual processing. For instance, in the human brain, the modalities of color, form and motion are separately processed in parallel neuronal pathways. This basic property is also found in the fly Drosophila melanogaster which has a similar division in color- sensitive and (color blind) motion-sensitive pathways that are determined by two distinct subsets of photoreceptors (the R1-6 and the R7/8 system, respectively). Flies have a highly organized visual system that is characterized by its repetitive, retinotopic organization of four neuropils: the lamina, the medulla, the lobula and the lobula plate. Each of these consists of columns which contain the same set of neurons. In the lamina, axon bundles of six photoreceptors R1-6 that are directed towards the same point in space form columnar structures called cartridges. These are the visual sampling units and are associated with four types of first-order interneuron that receive common input from R1-6: L1, L2, L3 and the amacrine cells (amc, together with their postsynaptic partner T1). They constitute parallel pathways that have been studied in detail at the anatomical level. Little is known, however, about their functional role in processing behaviorally relevant information, e.g. for gaze stabilization, visual course control or the fixation of objects. The availability of a variety of neurogenetic tools for structure-function analysis in Drosophila allowed first steps into the genetic dissection of the neuronal circuitry mediating motion and position detection. In this respect, the choice of the effector turned out to be crucial. Surprisingly, it was found that the clostridial tetanus neurotoxin failed to block mature Drosophila photoreceptor synapses, but caused irreversible damage when expressed during their development. Therefore, the dominant-negative shibire allele shits1 which turned out to be better suited was used for blocking lamina interneurons and thereby analyzing the necessity of the respective pathways. To determine whether the latter were also sufficient for the same behavioral task, the inverse strategy was developed, based on the fact that lamina interneurons express histamine receptors encoded by the ort gene. The specific rescue of ort function in defined channels in an otherwise mutant background allowed studying their sufficiency in a given task. Combining these neurogenetic methods with the optomotor response and object induced orientation behavior as behavioral measures, the aim of the present thesis was to answer the following questions: (a) Which pathways feed into elementary motion detectors and which ones are necessary and/or sufficient for the detection of directional motion? (b) Do pathways exist which specifically mediate responses to unidirectional motion? (c) Which pathways are necessary and/or sufficient for object induced orientation behavior? Some basic properties of the visual circuitry were revealed: The two central cartridge pathways, represented by the large monopolar cells L1 and L2, are key players in motion detection. Under a broad range of stimulatory conditions, the two subsystems are redundant and are able to process motion independently of each other. To detect an impairment when only one of the pathways is intact, one has to drive the system to its operational limits. At low signal to noise ratios, i.e. at low pattern contrast or low background illumination, the L2 pathway has a higher sensitivity. At intermediate pattern contrast, both pathways are specialized in mediating responses to unidirectional motion of opposite stimulus direction. In contrast, neither the L3, nor the amc/T1 pathway is necessary or sufficient for motion detection. While the former may provide position information for orientation, the latter has a modulatory role at intermediate pattern contrast. Orientation behavior turned out to be even more robust than motion vision and may utilize a less sophisticated mechanism, as it does not require a nonlinear comparison of signals from neighboring visual sampling units. The position of objects is processed in several redundant pathways, involving both receptor subsystems. The fixation of objects does not generally require motion vision. However, motion detection improves the fixation of landmarks, especially when these are narrow or have a reduced contrast.
LINC, the human homologue of an evolutionary conserved complex, regulates the transcription of a set of genes essential during the G2/M transition (Osterloh et al., 2007; Schmit et al., 2007). One component of the LINC core module is LIN-9. LIN-9 is essential for the transcriptional activation of LINC target genes and also promotes differentiation in association with pRB (Gagrica et al., 2004). However, nothing is known about its function in vivo. Histological and molecular analysis revealed that Lin9 is ubiquitously expressed throughout embryonic development and in all examined adult organs. Additionally, Lin9 mRNA is expressed in ES cells and blastocysts. Moreover the analogous distribution of the other LINC components suggested that they all function in the same cells and most likely in the same pathway. To deeper investigate the role of LIN9 in cell cycle and differentiation in vivo, a Lin9 gene trap mouse model (GT) was successfully generated and examined. Heterozygouse Lin9GT/+ mice were inconspicuous and develop normally. However, homozygouse knockout embryos were never obtained. The Lin9GT/GT embryos die at peri-implantation, probably due to a defect in the development of the epiblast, which could be shown with in situ hybridization with specific lineage markers. In vitro, the ICM of Lin9-deficient blastocysts did not develop properly. These data suggest that the loss of Lin9 leads to embryonic lethality at peri-implantation, and indicates that LIN9 is required for proper formation of the epiblast. In parallel, the first conditional Lin9 mouse model based on the Cre-loxP technology was generated. The Lin9fl/fl allele can be deleted by Cre-recombinase, in vivo and in vitro. Therefore an inducible system with Lin9fl/fl mice harboring Cre-ERT2 was established. The MEFs generated from these transgenic mice carried a nearly complete knockout upon induction with tamoxifen. Deletion of LIN9 in MEFs had a major impact upon the cell cycle and growth rates. Specifically, they arrested in G2/M phase and stopped to proliferate. Taken together, I was able to generate a lin9 gene trap and a lin9 conditional knockout mouse model. All results obtained so far demonstrate, that Lin9 is an essential gene for embryonic development and cell cycle control. It will be of great interest to further investigate Lin9-deficiency to gain insights into the mechanism of cell cycle control in early embryonic development and cell differentiation.
The human genome has been sequenced since 2001. Most proteins have been characterized now and with everyday more bioinformatical predictions are experimentally verified. A project is underway to sequence thousand humans. But still, little is known about the evolution of the human proteome itself. Domains and their combinations are analysed in detail but not all of the human domain architectures at once. Like no one before, we have large datasets of high quality human protein-protein-protein interactions and complexes available which allow us to characterize the human proteome with unmatched accuracy. Advanced clustering algorithms and computing power enable us to gain new information about protein interactions without touching a pipette. In this work, the human proteome is analysed at three different levels. First, the origin of the different types of proteins was analysed based on their domain architectures. The second part focuses on the protein-protein interactions. Finally, in the third part, proteins are clustered based on their interactions and non-interactions. Most proteins are built of domains and their function is the sum of their domain functions. Proteins that share the same domain architecture, the linear order of domains are homologues and should have originated from one common ancestral protein. This ancestor was calculated for roughly 750 000 proteins from 1313 species. The relations between the species are based on the NCBI Taxonomy and additional molecular data. The resulting data set of 5817 domains and 32868 domain architectures was used to estimate the origin of these proteins based on their architectures. It could be observed, that new domain architectures are only in a small fraction composed of domains arisen at the same taxon. It was also found that domain architectures increase in length and complexity in the course of evolution and that different organisms like worm, and human share nearly the same amount of proteins but differ in their number of distinct domain architectures. The second part of this thesis focuses on protein-protein interactions. This chapter addresses the question how new evolved proteins form connections within the existing network. The network built of protein-protein interactions was shown to be scale free. Scale free networks, like the internet, consist of few hubs with many connections and many nodes with few connections. They are thought to arise by two mechanisms. First, newly emerged proteins interact with proteins of the network. Second, according to the theory of preferential attachment, new proteins have a higher chance to interact with already interaction rich proteins. The Human Protein Reference Database provides an on in-vivo interaction data based network for human. With the data obtained from chapter one, proteins were marked with their taxon of origin based on their domain architectures. The interaction ratio of proteins of the same taxa compared to all interactions was calculated and higher values than the random model showed for nearly every taxa. On the other hand, there was no enrichment of proteins originated at the taxon of cellular organisms for the node degree found. The node degree is the number of links for this node. According to the theorie of preferential attachment the oldest nodes should have the most interactions and newly arisen proteins should be preferably attached to them not together. Both could not be shown in this analysis, preferential attachment could therefore not be the only explanation for the forming of the human protein interaction network. Finally in part three, proteins and all their interactions in the network are analysed. Protein networks can be divided into smaller highly interacting parts carrying out specific functions. This can be done with high statistical significance but still, it does not reflect the biological significance. Proteins were clustered based on their interactions and non-interactions with other proteins. A version with eleven clusters showed high gene ontology based ratings and clusters related to specific cell parts. One cluster consists of proteins having very few interactions together but many to proteins of two other clusters. This first cluster is significantly enriched with transport proteins and the two others are enriched with extracellular and cytoplasm/membrane located proteins. The algorithm seems therefore well suited to reflect the biological importance behind functional modules. Although we are still far from understanding the origin of species, this work has significantly contributed to a better understanding of evolution at the protein level and has, in particular, shown the relation of protein domains and protein architectures and their preferences for binding partners within interaction networks.
VACV GLV-1h68 was reported as a diagnostic/therapeutic vector which enters, replicates in, and reveals the locations of tumors in mice. Furthermore, the effect on tumor colonization, on tumor growth, regression and eradication by VACV GLV-1h68 without the need of any known genes with anti-tumoral activities was determined. To investigate differential protein expression between infected tumor cells and corresponding tumors, as well as between infected tumor cells, between infected tumors, proteomics is particularly used, possibly contributing to the understanding oncolytic ability on the protein level of VACV GLV-1h68. The given effects of VACV GLV-1h68 infection on cellular protein expression support tumor cell killing. In this study, differential protein expression was analyzed at different time points with two-dimensional gel electrophoresis (2DE) followed by MALDI-TOF/TOF identification. Comparative analysis of multiple 2-DE gels revealed that the majority of protein expression changes appeared at 48 hours post infection in cell cultivation and at 42 days post infection in tumors. Mass spectrometry identified 68, 75, 159 altered cellular proteins in the GI-101A, HT-29, PC-3 infected cells, respectively, including 30, 23, 49 up-regulated proteins and 38, 52, 110 down-regulated proteins 12 to 48 hours after infection. For xenografts, mass spectrometry identified 270, 101, 91 altered cellular proteins in the infected GI-101A, HT-29, PC-3 tumors, respectively, including 89, 70, 40 up-regulated proteins and 181, 31, 51 down-regulated proteins 7 to 42 days after infection. In general, in the cell lines, the proteins found to be differentially regulated are most often associated with metabolic processes, in particular with primary energy metabolism (glucose catabolism, TCA and lactate production). VAVC GLV 1h68 infection results in hijacking of the host translation apparatus, alteration of cytoskeleton networks, induce ubiqitin proteasome pathway (UPP) disorders. Particularly in tumors, the responses cover a much broader panel of cellular processes, including signalling (e.g., cell death), transport (in particular of iron ions) and migration. A common pathway to be up-regulated in both tumors and cell lines is the "unfolded protein response". Notably, VACV GLV-1h68 affected the anti-apoptosis pathways in GI-101A and PC-3 cancer cells but not in HT-29 xenografts. For example, GI-101A xenografts in mice appear 12 proteins associated with anti-apoptosis function. They were found down-regulated, including tumor protein-translationally-controlled (H-TPT1), rho-GDP-dissociation inhibitor alpha (H-GDIa), ywhaq protein (M-1433T), H-PRDX4, serine/threonine-protein phosphatase-2A-catalytic subunit beta isoform PP2A (M-Ppp2cb), eukaryotic translation initiation factor 2-subunit 1 alpha-35kDa (H-eIF2), H-actinin-α1 (ACTN1 ), Annexin A1 (H-A1), annexin A5 (H-A5), Mouse albumin 1 (M-Alb1), dimethylarginine dimethylaminohydrolase 2 (H-DDAH2). In PC-3 xenografts, anti-apoptosis expression is lesser than those in GI-101A cells, however 3 anti-apoptosis associated proteins were down-regulated such as ARP3 actin-related protein-3-homolog (H-ARP3), Human FLNA protein, Rho GDP dissociation inhibitor (GDI) alpha (H-GDIa). In contrast, in HT-29 xenografts, there are several anti-apoptosis-associated proteins that show even to be up-regulated; they mostly belong to peroxiredoxin proteins. Lesson from HT-29 had been given what various means the HT-29 cells use to escape their apoptosis fate. This suggests that VAVC GLV1h68 infection may induce unbalance of unfolded protein response (UPR) but tending to anti-apoptosis-mediated proteins and promote the destructive elements of UPR, including caspase-12 cleavage and apoptosis. Taken together in this thesis research I have tried to compare protein profiles obtained from responder cell line and from regressing solid tumors colonized by VAVC GLV-1h68 with that of non-responding tumors. I also compared these data with PC-3 prostate cell line and tumor data on intermediate responder which alter mouse protein profiling in tumors similarly to the highly efficacious GI-101A breast tumor cell line. From these comparisons I have deduced exciting protein pattern signature characteristic for a responder or distinctly different from non-responder system. Combining these few crucial genes involved with the transcriptional test data obtained by fellow graduate student at NIH a novel national designed VACV GLV-1h68 strains with enhanced efficacy in many today non-responder cancer cell lines will be available to be tested into ongoing clinical trials.
Regulated progression through the cell cycle is essential for ordered cell proliferation. One of the best characterized tumor suppressors is the retinoblastoma protein pRB, which together with the E2F transcription factors regulates cell cycle progression. In the model organisms Drosophila melanogaster and Caenorhabditis elegans, RB/E2F containing multiprotein complexes have been described as transcriptional regulators of gene expression. This work first describes a homologous complex in human cells named LINC (for LIN complex). It consists of a stable core complex containing LIN-9, LIN-37, LIN-52, LIN-54 and RbAp48. This core complex interacts cell cycle-dependently with different pocket proteins and transcription factors. In quiescent cells, LINC associates with p130 and E2F4. In S-phase cells these interactions are lost and LINC binds to B-MYB and p107. The transient knock-down of LIN-54 in primary fibroblasts, as the depletion of LIN-9, leads to cell cycle defects. The cells are delayed before the entry into mitosis. This effect is due to the fact that the knock-down of LINC components leads to the downregulation of cell cycle genes responsible for the entry into and exit from mitosis as well as for checkpoints during mitosis. These LINC target genes are known E2F G2/M target genes, which are expressed later than the classical G1/S E2F target genes. The transcriptional regulation by LINC is a direct effect as LINC binds to the promoters of its target genes throughout the cell cycle. LINC contains three DNA-binding proteins. E2F4 and B-MYB, which cell cycle-dependently bind to LINC, are known DNA-binding transcription factors. Additionally, it is show here that the LINC core complex member LIN-54 also directly binds to the promoter of a LINC target gene. Although the exact molecular mechanism of LINC function needs to be analyzed further, data in this work provide a model for the delayed activation of G2/M target genes. B-MYB, a G1/S E2F target gene, binds to LINC upon its expression in S-phase. Then only LINC is a transcriptional activator that induces the expression of the G2/M genes. This provides an explanation for the delayed expression of these E2F G2/M target genes.
Eine der größten Herausforderungen in der Neurobiologie ist es, die neuronalen Prozesse zu verstehen, die Lernen und Gedächtnis zugrundeliegen. Welche biochemischen Pfade liegen z.B. der Koinzidenzdetektion von Reizen (klassische Konditionierung) oder einer Handlung und ihren Konsequenzen (operante Konditionierung) zugrunde? In welchen neuronalen Unterstrukturen werden diese Informationen gespeichert? Wie ähnlich sind die Stoffwechselwege, die diese beiden Arten des assoziativen Lernens vermitteln und auf welchem Niveau divergieren sie? Drosophila melanogaster ist wegen der Verfügbarkeit von Lern-Paradigmen und neurogenetischen Werkzeugen ein geeigneter Modell-Organismus, zum diese Fragen zu adressieren. Er ermöglicht eine umfangreiche Studie der Funktion des Gens S6KII, das in der Taufliege in klassischer und operanter Konditionierung unterschiedlich involviert ist (Bertolucci, 2002; Putz et al., 2004). Rettungsexperimenten zeigen, dass die olfaktorische Konditionierung in der Tully Maschine (ein klassisches, Pawlow’sches Konditionierungsparadigma) von dem Vorhandensein eines intakten S6KII Gens abhängt. Die Rettung war sowohl mit einer vollständigen, als auch einer partiellen Deletion erfolgreich und dies zeigt, dass der Verlust der phosphorylierenden Untereinheit der Kinase die Hauptursache des Funktionsdefektes war. Das GAL4/UAS System wurde benutzt, um die S6KII Expression zeitlich und räumlich zu steuern. Es wurde gezeigt, dass die Expression der Kinase während des adulten Stadiums für die Rettung hinreichend war. Dieser Befund schließt eine Entwicklungsstörung als Ursache für den mutanten Phänotyp aus. Außerdem zeigte die gezielte räumliche Rettung von S6KII die Notwendigkeit der Pilzkörper und schloss Strukturen wie das mediane Bündel, die Antennalloben und den Zentralkomplex aus. Dieses Muster ist dem vorher mit der rutabaga Mutation identifizierten sehr ähnlich (Zars et al., 2000). Experimente mit der Doppelmutante rut, ign58-1 deuten an, dass rutabaga und S6KII im gleichen Signalweg aktiv sind. Vorhergehende Studien hatten bereits gezeigt, dass die unterschiedlichen Ergebnisse bei operanter und klassischer Konditionierung auf verschiedenen Rollen für S6KII in den zwei Arten des Lernens hindeuten (Bertolucci, 2002; Putz, 2002). Diese Schlussfolgerung wurde durch den mutanten Phänotyp der transgenen Linien in der Positionskonditionierung und ihr wildtypisches Verhalten in der klassischen Konditionierung zusätzlich bekräftigt. Eine neue Art von Lern-Experiment, genannt „Idle Experiment“, wurde entworfen. Es basiert auf der Konditionierung der Laufaktivität, stellt eine operante Aufgabenstellung dar und überwindet einige der Limitationen des „Standard“ Heat-Box Experimentes. Die neue Art des Idle Experimentes erlaubt es, „gelernte Hilflosigkeit“ in Fliegen zu erforschen, dabei zeigte sich eine erstaunliche Ähnlichkeit zu den Vorgängen in komplizierteren Organismen wie Ratten, Mäusen oder Menschen. Gelernte Hilflosigkeit in der Taufliege wurde nur in den Weibchen beobachtet und wird von Antidepressiva beeinflusst.
Neuronal representation and processing of chemosensory communication signals in the ant brain
(2008)
Ants heavily rely on olfaction for communication and orientation and ant societies are characterized by caste- and sex-specific division of labor. Olfaction plays a key role in mediating caste-specific behaviours. I investigated whether caste- and sex-specific differences in odor driven behavior are reflected in specific differences and/or adaptations in the ant olfactory system. In particular, I asked the question whether in the carpenter ant, Camponotus floridanus, the olfactory pathway exhibits structural and/or functional adaptations to processing of pheromonal and general odors. To analyze neuroanatomical specializations, the central olfactory pathway in the brain of large (major) workers, small (minor) workers, virgin queens, and males of the carpenter ant C. floridanus was investigated using fluorescent tracing, immunocytochemistry, confocal microscopy and 3D-analyzes. For physiological analyzes of processing of pheromonal and non-pheromonal odors in the first odor processing neuropil , the antennal lobe (AL), calcium imaging of olfactory projection neurons (PNs) was applied. Although different in total glomerular volumes, the numbers of olfactory glomeruli in the ALs were similar across the female worker caste and in virgin queens. Here the AL contains up to ~460 olfactory glomeruli organized in 7 distinct clusters innervated via 7 antennal sensory tracts. The AL is divided into two hemispheres regarding innervations of glomeruli by PNs with axons leaving via a dual output pathway. This pathway consists of the medial (m) and lateral (l) antenno-cerebral tract (ACT) and connects the AL with the higher integration areas in the mushroom bodies (MB) and the lateral horn (LH). M- and l-ACT PNs differ in their target areas in the MB calyx and the LH. Three additional ACTs (mediolateral - ml) project to the lateral protocerebrum only. Males had ~45% fewer glomeruli compared to females and one of the seven sensory tracts was absent. Despite a substantially smaller number of glomeruli, males possess a dual PN output pathway to the MBs. In contrast to females, however, only a small number of glomeruli were innervated by projection neurons of the m-ACT. Whereas all glomeruli in males were densely innervated by serotonergic processes, glomeruli innervated by sensory tract six lacked serotonergic innervations in the female castes. It appears that differences in general glomerular organization are subtle among the female castes, but sex-specific differences in the number, connectivity and neuromodulatory innervations of glomeruli are substantial and likely to promote differences in olfactory behavior. Calcium imaging experiments to monitor pheromonal and non-pheromonal processing in the ant AL revealed that odor responses were reproducible and comparable across individuals. Calcium responses to both odor groups were very sensitive (10-11 dilution), and patterns from both groups were partly overlapping indicating that processing of both odor classes is not spatially segregated within the AL. Intensity response patterns to the pheromone components tested (trail pheromone: nerolic acid; alarm pheromone: n-undecane), in most cases, remained invariant over a wide range of intensities (7-8 log units), whereas patterns in response to general odors (heptanal, octanol) varied across intensities. Durations of calcium responses to stimulation with the trail pheromone component nerolic acid increased with increasing odor concentration indicating that odor quality is maintained by a stable pattern (concentration invariance) and intensity is mainly encoded in the response durations of calcium activities. For n-undecane and both general odors increasing response dynamics were only monitored in very few cases. In summary, this is the first detailed structure-function analyses within the ant’s central olfactory system. The results contribute to a better understanding of important aspects of odor processing and olfactory adaptations in an insect’s central olfactory system. Furthermore, this study serves as an excellent basis for future anatomical and/or physiological experiments.
In this thesis, the development of a phylogenetic DNA microarray, the analysis of several gene expression microarray datasets and new approaches for improved data analysis and interpretation are described. In the first publication, the development and analysis of a phylogenetic microarray is presented. I could show that species detection with phylogenetic DNA microarrays can be significantly improved when the microarray data is analyzed with a linear regression modeling approach. Standard methods have so far relied on pure signal intensities of the array spots and a simple cutoff criterion was applied to call a species present or absent. This procedure is not applicable to very closely related species with high sequence similarity because cross-hybridization of non-target DNA renders species detection impossible based on signal intensities alone. By modeling hybridization and cross-hybridization with linear regression, as I have presented in this thesis, even species with a sequence similarity of 97% in the marker gene can be detected and distinguished from related species. Another advantage of the modeling approach over existing methods is that the model also performs well on mixtures of different species. In principle, also quantitative predictions can be made. To make better use of the large amounts of microarray data stored in public databases, meta-analysis approaches need to be developed. In the second publication, an explorative meta-analysis exemplified on Arabidopsis thaliana gene expression datasets is presented. Integrating datasets studying effects such as the influence of plant hormones, pathogens and different mutations on gene expression levels, clusters of similarly treated datasets could be found. From the clusters of pathogen-treated and indole-3-acetic acid (IAA) treated datasets, representative genes were selected which pointed to functions which had been associated with pathogen attack or IAA effects previously. Additionally, hypotheses about the functions of so far uncharacterized genes could be set up. Thus, this kind of meta-analysis could be used to propose gene functions and their regulation under different conditions. In this work, also primary data analysis of Arabidopsis thaliana datasets is presented. In the third publication, an experiment which was conducted to find out if microwave irradiation has an effect on the gene expression of a plant cell culture is described. During the first steps, the data analysis was carried out blinded and exploratory analysis methods were applied to find out if the irradiation had an effect on gene expression of plant cells. Small but statistically significant changes in a few genes were found and could be experimentally confirmed. From the functions of the regulated genes and a meta-analysis with publicly available microarray data, it could be suspected that the plant cell culture somehow perceived the irradiation as energy, similar to perceiving light rays. The fourth publication describes the functional analysis of another Arabidopsis thaliana gene expression dataset. The gene expression data of the plant tumor dataset pointed to a switch from a mainly aerobic, auxotrophic to an anaerobic and heterotrophic metabolism in the plant tumor. Genes involved in photosynthesis were found to be repressed in tumors; genes of amino acid and lipid metabolism, cell wall and solute transporters were regulated in a way that sustains tumor growth and development. Furthermore, in the fifth publication, GEPAT (Genome Expression Pathway Analysis Tool), a tool for the analysis and integration of microarray data with other data types, is described. It consists of a web application and database which allows comfortable data upload and data analysis. In later chapters of this thesis (publication 6 and publication 7), GEPAT is used to analyze human microarray datasets and to integrate results from gene expression analysis with other datatypes. Gene expression and comparative genomic hybridization data from 71 Mantle Cell Lymphoma (MCL) patients was analyzed and allowed proposing a seven gene predictor which facilitates survival predictions for patients compared to existing predictors. In this study, it was shown that CGH data can be used for survival predictions. For the dataset of Diffuse Large B-cell lymphoma (DLBCL) patients, an improved survival predictor could be found based on the gene expression data. From the genes differentially expressed between long and short surviving MCL patients as well as for regulated genes of DLBCL patients, interaction networks could be set up. They point to differences in regulation for cell cycle and proliferation genes between patients with good and bad prognosis.
In patients suffering from end-stage renal disease who are treated by hemodialysis genomic damage as well as cancer incidence is elevated. One possible cause for the increased genomic damage could be the accumulation of genotoxic substances in the blood of patients. Two possible sources for those toxins have to be considered. The first possibility is that substances from dialysers, the blood tubing system or even contaminated dialysis solutions may leach into the blood of the patients during dialysis. Secondly, the loss of renal filtration leads to an accumulation of substances which are normally excreted by the kidney. If those substances possess toxic potential, they are called uremic toxins. Several of these uremic toxins are potentially genotoxic. Within this thesis several exemplary uremic toxins have been tested for genotoxic effects (homocysteine, homocysteine-thiolactone,leptine, advanced glycated end-products). Additionally, it was analysed whether substances are leaching from dialysers or blood tubing and whether they cause effects in in vitrotoxicity testing. The focus of chemical analytisis was on bisphenol A (BPA), the main component of plastics used in dialysers and dialyser membranes.
Chapter 1 - Evolution of local adaptations in dispersal strategies The optimal probability and distance of dispersal largely depend on the risk to end up in unsuitable habitat. This risk is highest close to the habitat’s edge and consequently, optimal dispersal probability and distance should decline towards the habitat’s border. This selection should lead to the emergence of spatial gradients in dispersal strategies. However, gene flow caused by dispersal itself is counteracting local adaptation. Using an individual based model I investigate the evolution of local adaptations of dispersal probability and distance within a single, circular, habitat patch. I compare evolved dispersal probabilities and distances for six different dispersal kernels (two negative exponential kernels, two skewed kernels, nearest neighbour dispersal and global dispersal) in patches of different size. For all kernels a positive correlation between patch size and dispersal probability emerges. However, a minimum patch size is necessary to allow for local adaptation of dispersal strategies within patches. Beyond this minimum patch area the difference in mean dispersal distance between center and edge increases linearly with patch radius, but the intensity of local adaptation depends on the dispersal kernel. Except for global and nearest neighbour dispersal, the evolved spatial pattern are qualitatively similar for both, mean dispersal probability and distance. I conclude, that inspite of the gene-flow originating from dispersal local adaptation of dispersal strategies is possible if a habitat is of sufficient size. This presumably holds for any realistic type of dispersal kernel. Chapter 2 - How dispersal propensity and distance depend on the capability to assess population density We analyze the simultaneous evolution of emigration probability and dispersal distance for species with different abilities to assess habitat quality (population density) and which suffer from distance dependent dispersal costs. Using an individual-based model I simulate dispersal as a multistep (patch to patch) process in a world consisting of habitat patches surrounded by lethal matrix. Our simulations show that natal dispersal is strongly driven by kin-competition but that consecutive dispersal steps are mostly determined by the chance to immigrate into patches with lower population density. Consequently, individuals following an informed strategy where emigration probability depends on local population density disperse over larger distances than individuals performing density-independent emigration; this especially holds when variation in environmental conditions is spatially correlated. However, already moderate distance-dependent dispersal costs prevent the evolution of long-distance dispersal irrespectively of the chosen dispersal strategy. Chapter 3 - Evolution of sex-biased dispersal: the role of sex-specific dispersal costs, demographic stochasticity, and inbreeding Inbreeding avoidance and asymmetric competition over resources have both been identified as factors favouring the evolution of sex- biased dispersal. It has also been recognized that sex-specific costs of dispersal would promote selection for sexspecific dispersal, but there is little quantitative information on this aspect. In this paper I explore (i) the quantitative relationship between cost-asymmetry and a bias in dispersal, (ii) the influence of demographic stochasticity on this effect, and (iii) how inbreeding and cost-asymmetry interact in their effect on sex-specific dispersal. I adjust an existing analytical model to account for sex-specific costs of dispersal. Based on numerical calculations I predict a severe bias in dispersal already for small differences in dispersal costs. I corroborate these predictions in individualbased simulations, but show that demographic stochasticity generally leads to more balanced dispersal. In combination with inbreeding, cost asymmetries will usually determine which of the two sexes becomes the more dispersive. Chapter 4 - Evolution of sex-biased dispersal: the role of sex-specific dispersal costs, demographic stochasticity, and inbreeding Inbreeding depression, asymmetries in costs or benefits, and the mating system have been identified as potential factors underlying the evolution of sex-biased dispersal. We use individual-based simulations to explore how the mating system and demographic stochasticity influence the evolution of sex-specific dispersal in a metapopulation with females competing over breeding sites, and males over mating opportunities. Comparison of simulation results for random mating with those for a harem system (locally, a single male sires all offspring) reveal that even extreme variance in local male reproductive success (extreme male competition) does not induce a male bias in dispersal. The latter evolves if between-patch variance in reproductive success is larger for males than females. This can emerge due to demographic stochasticity if habitat patches are small. More generally, members of a group of individuals experiencing higher spatio-temporal variance in fitness expectations may evolve to disperse with greater probability than others.
Towards localizing the Synapsin-dependent olfactory memory trace in the brain of larval Drosophila
(2008)
Animals need to adapt and modify their behaviour according to a changing environment. In particular, the ability to learn about rewarding or punishing events is crucial for survival. One key process that underlies such learning are modifications of the synaptic connection between nerve cells. This Thesis is concerned with the genetic determinants of such plasticity, and with the site of these modifications along the sensory-to-motor loops in Drosophila olfactory learning. I contributed to the development and detailed parametric description of an olfactory associative learning paradigm in larval fruit flies (Chapter I.1.). The robustness of this learning assay, together with a set of transgenic Drosophila strains established during this Thesis, enabled me to study the role for Synapsin, a presynaptic phosphoprotein likely involved in synaptic plasticity, in this form of learning (Chapter I.2.), and to investigate the cellular site of the corresponding Synapsin-dependent memory trace (Chapter I.3.). These data provide the first comprehensive account to-date of the neurogenetic bases of learning in larval Drosophila. The role for Synapsin was also analyzed with regard to pain-relief learning in adult fruit flies (Chapter II.1.); that is, if an odour precedes an electric shock during training, flies subsequently avoid that odour (‘punishment learning’), whereas presentation of the odour upon the cessation of shock subsequently leads to approach towards the odour (‘relief larning’). Such pain-relief learning was also the central topic of a study concerning the white gene (Chapter II.2.), which as we report does affect pain-relief as well as punishment learning in adult flies, but leaves larval odour-food learning unaffected. These studies regarding pain-relief learning provide the very first hints, in any experimental system, concerning the genetic determinants of this form of learning.
Study of the properties of channel-forming proteins of the cell walls of different Corynebacteriae
(2008)
The genus Corynebacterium belongs, together with Mycobacterium, Nocardia, Rhodococcus and further closely related genera, to the distinctive suprageneric taxon mycolata. Many species within this diverse group of mycolic acid containing actinomycetes are known either because of their medical or biotechnological relevance. For instance, Mycobacterium tuberculosis, Mycobacterium leprae, Corynebacterium diphtheriae and Nocardia farcinica, causer of most dangerous bacterial infectious diseases world-wide, are among this exceptional group of Gram-positive bacteria. Likewise of importance are some harmless mycolata species which find use in industrial settings. Corynebacterium glutamicum and Corynebacterium efficiens are, e.g., potent producers of the flavour enhancer glutamate and the animal feed additive lysine, while several Rhodococcus species are applied in the production of acrylic acids. The cell wall of mycolata species, compared with that of Gram-positive bacteria, exhibits an unusual composition and organization. Besides an arabinogalactan-peptidoglycan complex, the cell walls of most actinomycetes contain large amounts of mycolic acids. Comparable to the outer membrane of Gram-negative bacteria, these long-chained branched fatty acids form a highly impermeable hydrophobic outer layer which provides the basis of the exceptional drug resistance of mycolata species. Like the outer membrane of Gram-negative bacteria, the cell wall of mycolata contains channel-forming proteins that allow the passage of hydrophilic solutes. By permitting and controlling the exchange and communication between the interior of the cell and the environment in which the bacterium lives, the channels play an important role for the function of the bacterial cell envelope. This thesis aimed to extend our knowledge about cell wall channels in corynebacteria. For this purpose, we examined PorA and PorH proteins that have been associated by previous studies with cell wall pores in C. glutamicum, C. efficiens and Corynebacterium callunae in order to resolve unanswered questions and to gain structural knowledge. We also investigated cell walls of pathogenic corynebacteria, in particular of Corynebacterium diphtheriae and Corynebacterium jeikeium, to investigate if these species possessed channels as is the case with their harmless relatives. In this work we provided evidence for the existence of large and water-filled cell wall channels in C. diphtheriae and C. jeikeium. Moreover, we demonstrated that the major cell wall channels of C. glutamicum, C. efficiens and C. diphtheriae consist of two distinctive polypeptides; one of whom belongs to the class of PorH proteins and the other to the class of PorA proteins. This heteromeric structure of channels of corynebacteria represents a novelty for channels of the mycolata. In contrast, the C. jeikeium channel is solely constituted by a single protein, CjPorA, arranged as an oligomer. Although the molecular mass of this protein (4kDa) is comparable to those of PorH and PorA proteins (5-7 kDa), it shares no distinctive homology in its primary sequence with them. However, there is evidence for relationship between CjPorA and PorH/PorA proteins because the gene jk0268, coding for CjPorA, is localized in a chromosomal region of C. jeikeium that corresponds to the genomic region containing the porH/porA genes in the other corynebacteria. This suggests that jk0268 (coding for the homomeric cell wall channel in C. jeikeium) and the porH/porA genes of C. glutamicum, C. efficiens and C. diphtheriae (coding for heteromeric cell wall channels) are presumably descendants of a common ancestor gene. This assumption gets support from data on phylogenetic analysis of the genus Corynebacterium. Moreover, these data suggest that the here investigated cell wall channels are presumably widespread within this genus. A profound knowledge of cell wall channels, building the main passage of solutes through the outer mycolate membrane in corynebacteria and other members of the mycolata, can be of great economical and medical value.
Many arthropods and vertebrates can cling to surfaces using adhesive pads on their legs. These pads are either smooth and characterised by a specialised, soft cuticle or they are hairy, i.e. densely covered with flexible adhesive setae. Animals climbing with adhesive organs are able to control attachment and detachment dynamically while running. The detailed mechanisms of how tarsal pads generate adhesive and frictional forces and how forces are controlled during locomotion are still largely unclear. The aim of this study was to clarify the attachment mechanism of smooth adhesive pads as present in many insects and tree frogs. To understand the function of these fluid-based adhesive systems, I characterized their performance under standardized conditions. To this end, experiments were conducted by simultaneously measuring adhesion, friction, and contact area in single adhesive pads. The first result of this study showed that friction in stick insect attachment pads is anisotropic: Attachment pads regularly detached when slid away from the body. Further analyses of "immobilized" arolia revealed that this anisotropy is not caused by an increased shear stress in the proximal direction, but by the instability of the tarsus when pushed distally. In the second part of this study, I analysed the role of the pad secretion present in insects and tree frogs. In stick insects, shear stress was largely independent of normal force and increased with velocity, seemingly consistent with the viscosity effect of a continuous fluid film. However, measurements of the remaining force two minutes after a sliding movement showed that adhesive pads could sustain considerable static friction in insects and tree frogs. Repeated sliding movements and multiple consecutive pull-offs of stick insect single legs to deplete adhesive secretion showed that on a smooth surface, friction and adhesion strongly increased with decreasing amount of fluid in insects. In contrast, stick insect pull-off forces significantly decreased on a rough substrate. Thus, the secretion does not generally increase attachment but does so only on rough substrates, where it helps to maximize contact area. When slides with stick insect arolia were repeated at one position so that secretion could accumulate, sliding shear stress decreased but static friction remained clearly present. This suggests that static friction in stick insects, which is biologically important to prevent sliding, is based on non-Newtonian properties of the adhesive emulsion rather than on a direct contact between the cuticle and the substrate. % Analogous measurements in toe pads of tree frogs showed that they are also able to generate static friction, even though their pads are wetted by mucus. In contrast to the mechanism proposed for insects, static friction in tree frogs apparently results from the very close contact of toe pads to the substrate and boundary lubrication. In the last section of this study, I investigated adhesive forces and the mode of detachment by performing pull-off measurements at different velocities and preloads. These experiments showed that preload has only an increasing effect on adhesion for faster pull-offs. This can be explained by the viscoelastic material properties of the stick insect arolium, which introduce a strong rate-dependence of detachment. During fast pull-offs, forces can spread over the complete area of contact, leading to forces scaling with area. In contrast, the pad material has sufficient time to withdraw elastically and peel during slow detachments. Under these conditions the adhesive force will concentrate on the circumference of the contact area, therefore scaling with a length, supporting models such as the peeling theory. The scaling of single-pad forces supported these conclusions, but large variation between pads of different stick insects did not allow statistically significant conclusions. In contrast, when detachment forces were quantified for whole insects using a centrifuge, forces scaled with pad contact area and not with length.
In the present study a knockout mouse model of the Popeye domain containing gene 2 (Popdc2) was generated and functionally characterized. The Popdc2 null mutants were viable with an apparent normal life span. ß-galactosidase staining to visualize the expression of the Popdc2-LacZ transgene revealed the presence of the Popdc2 in heart, bladder, smooth and skeletal muscles. In the heart LacZ was found to be present in cardiac myocytes with elevated levels in the myocytes of the cardiac conduction system. Holter ECGs records of the heart function of the 8 months (but not in 3 and 6 months) old mutant and WT littermates revealed a pronounced sinus bradycardia in the mutant mice in response to three different stress regimens: isoproterenol infusion, mental stress and a physical exercise. Histological examination of the Popdc2 null mutants SAN revealed structural alterations as was detected by HCN4 staining. Moreover, volume measurements using 3-D reconstructions of serial sections stained with HCN4 antibody revealed a volume reduction of about 30% in the mutant SAN. Taken together data presented in this study suggest that the Popdc2 KO mouse line may serve as an animal model of human sick sinus syndrome. In the second part of this thesis the Popdc2 gene promoter was analyzed. Three transcription factors binding sites were predicted in the promoter region and characterized.
In this thesis, synaptic transmission was studied electrophysiologically at an invertebrate model synapse, the neuromuscular junction of the Drosophila 3rd instar wandering larvae. In the first part, synaptic function is characterized at the neuromuscular junction in fly lines which are null mutants for the synaptic proteins “the synapse associated protein of 47 kDa” (Sap-47156), Synapsin (Syn97), the corresponding double mutant (Sap-47156, Syn97), a null mutant for an as yet uncharacterized Drosophila SR protein kinase, the Serine-Arginine protein kinase 3 (SRPK3), and the Löchrig (Loe) mutant which shows a strong neurodegenerative phenotype. Intracellular voltage recordings from larval body wall muscles 6 and 7 were performed to measure amplitude and frequency of spontaneous single vesicle fusion events (miniature excitatory junction potentials or mEJPs). Evoked excitatory junction potentials (eEJPs) at different frequencies and calcium concentrations were also measured to see if synaptic transmission was altered in mutants which lacked these synaptic proteins. In addition, structure and morphology of presynaptic boutons at the larval neuromuscular junction were examined immunohistochemically using monoclonal antibodies against different synaptic vesicle proteins (SAP-47, CSP, and Synapsin) as well as the active zone protein Bruchpilot. Synaptic physiology and morphology was found to be similar in all null mutant lines. However, Löchrig mutants displayed an elongated bouton morphology, a significant shift towards larger events in mEJP amplitude frequency histograms, and increased synaptic facilitation during a 10 Hz tetanus. These deficits suggest that Loe mutants may have a defect in some aspect of synaptic vesicle recycling. The second part of this thesis involved the electrophysiological characterization of heterologously expressed light activated proteins at the Drosophila neuromuscular junction. Channelrhodopsin-2 (ChR2), a light gated ion channel, and a photoactivated adenylate cyclase (PAC) were expressed in larval motor neurons using the UAS-Gal4 system. Single EJPs could be recorded from muscles 15, 16, and 17 when larva expressing ChR2 were illuminated with short (100 ms) light pulses, whereas long light pulses (10 seconds) resulted in trains of EJPs with a frequency of around 25 Hz. Larva expressing PAC in preparations where motor neurons were cut from the ventral ganglion displayed a significant increase in mEJP frequency after a 1 minute exposure to blue light. Evoked responses in low (.2 mM) calcium were also significantly increased when PAC was stimulated with blue light. When motor nerves were left intact, PAC stimulation resulted in light evoked EJPs in muscles 6 and 7 in a manner consistent with RP3 motor neuron activity. ChR2 and PAC are therefore useful and reliable tools for manipulating neuronal activity in vivo.
Insects living in temperate latitudes need to adjust their life-history to a seasonally variable environment. Reproduction, growth, and development have to be completed within the limited period where environmental conditions are favourable while climatically adverse conditions have to be spent in a state of diapause. Consequently, questions how individuals adapt their life-history to seasonality and which mechanisms underlie the responses to seasonal cues, like photoperiod, are important issues in the study of life-history strategies. This thesis focuses on the life-history adaptation to seasonality in the wing-dimorphic common pond skater Gerris lacustris L. (Heteroptera: Gerridae). Using a combination of field and laboratory studies as well as mathematical modelling, it is adressed how variation in the availability of thermal energy impacts on various aspects of larval development such as accumulated thermal energy (i.e. physiological development time), developmental pathway (direct reproduction vs. diapause) and wing dimorphism.
This work was aimed at experimentally studying whether climatic variables act as environmental cues for workers’ building behaviour in leaf-cutting ants of the genus Acromyrmex, and to what extent building responses account for the maintenance of nest climate in a proper range for the inhabiting colony. Specifically, this work presents independent analysis in different Acromyrmex species with disparate ecology and nesting habits, aimed at understanding to what extent: i) temperature and humidity act as cues for workers’ building behaviour, ii) inter- and intraspecific differences in the nesting habits observed in South American Acromyrmex are based on distinct building behaviours and on the variation in regional climate across continent, iii) differences in nest architecture account for the maintenance of nest climate in a proper range for colony members and, iv) climatic variables trigger building responses aimed at controlling short-term changes in nest climate. It is first experimentally shown that soil temperature acts as a cue for workers’ digging behaviour. Acromyrmex lundi workers were observed to respond to both soil temperature as well as its changes, and to decide accordingly where to start or whether to stop digging. The soil temperature range preferred by workers to dig, between 20°C and maximally 30.6°C, matches the range at which colony growth is expected to be maximized. Temperature-sensitive digging might therefore lead to the establishment of the fungus chambers in soil layers with a proper range of temperatures for colony growth. Based on that, it was hypothesized that nest depth in Acromyrmex largely depends on the depth at which this temperature range is located across the soil profile, i.e., the higher the temperature in the superficial soil layers, the deeper the nest location, since soil temperature decreases with increasing depth. A bibliographic survey on nesting habits of 21 South American Acromyrmex species confirmed that the warmer the soil temperature at 50 cm depth throughout the South American continent, the higher the number of species presenting subterranean nests, compared with those inhabiting superficial nests. Temperature-sensitive digging in Acromyrmex would therefore explain the geographical distribution of nesting habits observed for this genus in the South American continent, i.e., subterranean in the northern tropical regions, and superficial in the southern temperate ones. In addition, results showed that Acromyrmex colonies from temperate regions indeed achieve thermoregulatory benefits through the determination of nest depth based on thermoregulatory needs. In sympatrically-occurring colonies of the grass-cutting ant A. heyeri, temperature inside superficial thatched nests was higher, and more suitable for colony growth, than that inside subterranean nests. This temperature surplus was even higher in spring, at the time of production of sexual brood, than in winter or summer. It was demonstrated that such temperature surplus was brought about by the low thermal diffusivity of the nest thatch, which prevents diurnal nest overheating by the incoming solar radiation, and avoids losses of the accumulated daily heat into the cold air during night, thus leading to high average nest temperatures. Although highly advantageous for colonies in terms of nest temperature, the determination of nest depth based on thermoregulatory needs may differentially affect nest ventilation and humidity depending on how nest exposition influences the exchange of nest air with the outside air. For instance, colonies with a superficial nesting habit might benefit from improved nest ventilation, but be at risk of desiccation due to their exposition and the consequent humidity losses into the dry outside air. Results demonstrated that in two Acromyrmex species, short-term regulatory building responses triggered and spatially organized by climatic variables occur, and may counteract undesired changes in internal nest humidity. Workers of the thatching grass-cutting ant A. heyeri, for instance, closed a number of nest-thatch openings as a response to desiccation of the outside air, even at a nest temperature that otherwise triggered the response of opening them so as to reduce nest temperature. In the leaf-cutting ant A. ambiguus, the direction of the airflow inside nest tunnels was shown to act as a cue for spatially guiding the building behaviour of plugging nest entrances. However, workers only responded if the humidity content of the circulating air was low, trading therefore nest ventilation for humidity maintenance.
In the course of this study, several endogenous compounds and model substances were used to mimic the conditions in patients suffering from hypertension. As endogenous compounds, angiotensin II and aldosterone were chosen. As model substances, 4-nitroquinoline-1-oxide (NQO), hydrogen peroxide and phorbol 12-myristate 13-acetate (PMA) were selected. Benfotiamine as well as α-tocopherol proved in the course of the experiments to be able to prevent angiotensin II-induced formation of oxidative DNA strand breaks and micronuclei. This could be due to a prior inhibition of the release of reactive oxygen species and is in contrast to results which were achieved using thiamine. Furthermore, experiments in which cells were pre-incubated with benfotiamine followed by incubation with NQO showed that benfotiamine was not able to prevent the induction of oxidative stress. The hypothesis that benfotiamine has, like α-tocopherol, direct antioxidative capacity was fortified by measurements in cell free systems. In brief, a new working mechanism for benfotiamine in addition to the ones already known could be provided. In the second part of the study, angiotensin II was shown to be dose-dependently genotoxic. This effect is mediated via the angiotensin II type 1 receptor (AT1R) which. Further experiments were extended from in vitro settings to the isolated perfused kidney. Here it could be shown that angiotensin II caused vasoconstriction and DNA strand breaks. Co-perfusion of kidneys with angiotensin II and candesartan prevented vasoconstriction and formation of strand breaks. DNA strand break formation due to mechanical stress or hypoxia could be ruled out after additional experiments with the thromboxane mimetic U 46619. Detailed investigation of the DNA damage in vitro revealed that angiotensin II induces single strand breaks, double strand breaks and 8-hydroxydeoxyguanosine (8-oxodG)-adducts as well as abasic sites. Investigations of the effects of aldosterone-treatment in kidney cells showed an increase of oxidative stress, DNA strand breaks and micronuclei which could be prevented by the steroidal mineralocorticoid receptor antagonist eplerenone. Additional experiments with the non-steroidal mineralocorticoid receptor antagonist (S)-BR-4628 revealed that this substance was also able to prevent oxidative stress and genomic damage and proved to be more potent than eplerenone. In vivo, hyperaldosteronism was imitated in rats by aid of the deoxycorticosteroneacetate (DOCA) salt model. After this treatment, levels of DNA strand breaks and chromosomal aberrations in the kidney could be observed. Furthermore, an increase in the release of ROS could be measured. Treatment of these animals with spironolactone , BR-4628 and enalaprile revealed that all antagonists were effective BR-4628 was the most potent drug. Finally, rosuvastatin was investigated. In HL-60 cells phorbol 12-myristate 13-acetate caused oxidative stress. Rosuvastatin was able to prevent the release of ROS and subsequent oxidative DNA damage when co-incubated with PMA. Furthermore, not only an inhibition of PMA-induced oxidative stress but also inhibition of the unspecific release of ROS induced by hydrogen peroxide was observable. Addition of farnesyl pyrophosphate (FPP), geranylgeranyl pyrophosphate (GGPP), and mevalonate, intermediates of the cholesterol pathway, caused only a marginal increase of oxidative stress in cells treated simultaneously with PMA and rosuvastatin, thus indicating the effect of rosuvastatin to be HMG-CoA-reductase-independent. Investigation of the gene expression of subunits of NAD(P)H oxidase revealed a down-regulation of p67phox following rosuvastatin-treatment. Furthermore, it could be shown that rosuvastatin treatment alone or in combination with PMA increased total glutathione levels probably due to an induction of the gene expression and enzyme activity of γ-glutamylcysteine synthetase (γ-GCS).
Investigations of Measles virus regulation on activation and function of antigen presenting cells
(2008)
Interaction with dendritic cells (DCs) is considered as central to immunosuppression induced by viruses, including measles virus (MV). Commonly, viral infection of DCs abrogates their ability to promote T cell expansion, yet underlying mechanisms at a cellular level are undefined. It appears that MV-WTF infection modulate DCs morphology and dynamic adhesion on extra cellular matrix proteins such as FN or ICAM-1. By morphological criteria, WTF-DCs resembled LPS-DCs, associated with their mature phenotype also adhered less efficiently to the FN or ICAM-1 support. Reduced adhesion could not be explained by a lack of 1-integrin expression or activation. Similarly, MV-DCs strongly resembled LPS-DCs in that levels of focal adhesion kinase phosphorylated at Y397 were high and not further enhanced upon FN ligation. Fascin, a downstream effector of integrin signaling was highly upregulated in LPS-DCs and moderately in WTF-DCs, and differences in its subcellular distribution were not observed between both cell cultures. Apparently, however, fascin associated less efficiently with PKC in WTF-DCs then in LPS-DCs. In line with findings for murine DCs, high motility of mature human DCs was found to require expression of Rac-GTPases. Human LPS-DCs and more so, DC transfected to express constitutively active Rac1 were the most motile DC-species analysed, confirming that migration of human DC also involved Rac activity. The velocity of WTF-DCs on FN is below that of LPS-DCs, indicating that maturation induced by WTF may be insufficient to completely promote integrin signaling which leads to Rac activation. The organisation of MV-DC/T cell interfaces was consistent with that of functional immune synapses with regard to CD3 clustering, MHC class II surface recruitment and MTOC location. These analyses are based in the selection of stable conjugates. Subsequently, however, neither contacts nor calcium flux can be stabilised and sustained in the majority of MV-DC/T cell conjugates and only promoted abortive T cell activation. Formation of spatially organised IS in T cells requites, prolonged contact durations. Therefore, aberrant distribution patterns of CD3 in these structures, if occurring, are not likely to contribute to the type of contacts predominating for WTF-DC/T cell interactions. It is also likely that transient interactions of less than 2 minutes may if at all, not efficiently support viral transmission to T cells. Transient interactions are typically observed with immature DCs in the absence of antigen, but this is not likely to be relevant in our allogenic system, which includes SA-loaded WTF-DCs. Thus, MV-infected DCs retain activities required for initiating, but not sustaining T cell conjugation and activation. This is partially rescued if surface expression of the MV glycoproteins on DCs is abolished by infection with a recombinant MV encoding VSV G protein instead, indicating that these contribute directly to synapse destabilisation and thereby act as effectors of T cell inhibition.
Past experience contributes to behavioural organization mainly via learning: Animals learn otherwise ordinary cues as predictors for biologically significant events. This thesis studies such predictive, associative learning, using the fruit fly Drosophila melanogaster. I ask two main questions, which complement each other: One deals with the processing of those cues that are to be learned as predictors for an important event; the other one deals with the processing of the important event itself, which is to be predicted. Do fruit flies learn about combinations of olfactory and visual cues? I probe larval as well as adult fruit flies for the learning about combinations of olfactory and visual cues, using a so called ‘biconditional discrimination’ task: During training, one odour is paired with reinforcement only in light, but not in darkness; the other odour in turn is reinforced only in darkness, but not in light. Thus, neither the odours nor the visual conditions alone predict reinforcement, only combinations of both do. I find no evidence that either larval or adult fruit flies were to solve such task, speaking against a cross-talk between olfactory and visual modalities. Previous studies however suggest such cross-talk. To reconcile these results, I suggest classifying different kinds of interaction between sensory modalities, according to their site along the sensory-motor continuum: I consider an interaction ‘truly’ cross-modal, if it is between the specific features of the stimuli. I consider an interaction ’amodal’ if it instead engages the behavioural tendencies or ‘values’ elicited by each stimulus. Such reasoning brings me to conclude that different behavioural tasks require different kinds of interaction between sensory modalities; whether a given kind of interaction will be found depends on the neuronal infrastructure, which is a function of the species and the developmental stage. Predictive learning of pain-relief in fruit flies Fruit flies build two opposing kinds of memory, based on an experience with electric shock: Those odours that precede shock during training are learned as predictors for punishment and are subsequently avoided; those odours that follow shock during training on the other hand are learned as signals for relief and are subsequently approached. I focus on such relief learning. I start with a detailed parametric analysis of relief learning, testing for reproducibility as well as effects of gender, repetition of training, odour identity, odour concentration and shock intensity. I also characterize how relief memories, once formed, decay. In addition, concerning the psychological mechanisms of relief learning, first, I show that relief learning establishes genuinely associative conditioned approach behaviour and second, I report that it is most likely not mediated by context associations. These results enable the following neurobiological analysis of relief learning; further, they will form in the future the basis for a mathematical model; finally, they will guide the researchers aiming at uncovering relief learning in other experimental systems. Next, I embark upon neurogenetic analysis of relief learning. First, I report that fruit flies mutant for the so called white gene build overall more ‘negative’ memories about an experience with electric shock. That is, in the white mutants, learning about the painful onset of shock is enhanced, whereas learning about the relieving offset of shock is diminished. As they are coherently affected, these two kinds of learning should be in a balance. The molecular mechanism of the effect of white on this balance remains unresolved. Finally, as a first step towards a neuronal circuit analysis of relief learning, I compare it to reward learning and punishment learning. I find that relief learning is distinct from both in terms of the requirement for biogenic amine signaling: Reward and punishment are respectively signalled by octopamine and dopamine, for relief learning, either of these seem dispensible. Further, I find no evidence for roles for two other biogenic amines, tyramine and serotonin in relief learning. Based on these findings I give directions for further research.
Myelinmutationen des zentralen und peripheren Nervensystems verursachen erheblich behindernde und bislang nicht heilbare Erkrankungen. In dieser Arbeit verwendeten wir transgene PLP überexprimierende Mäuse (PLPtg) als Modell für zentrale Myelinopathien und heterozygot P0 defiziente (P0+/-) Mäuse als Modell für hereditäre Neuropathien des peripheren Nervensystems. Beide Modelle zeigen eine niedriggradige Inflammation des Nervengewebes. Durch Verpaarung mit immundefizienten Mausstämmen konnten wir die Relevanz von Makrophagen und T- Lymphozyten in der Entstehung der Myelinpathologie zeigen. Nachdem wir beweisen konnten, dass CD8+ T- Lymphozyten maßgeblich zur Pathologie in PLPtg Mäusen beitragen untersuchten wir den Einfluss eines wichtigen zytotoxischen Moleküls, Granzym B, auf den neuralen Schaden. Durch Generierung von Granzym B defizienten PLPtg Knochenmarkschimären konnten wir eine deutliche Reduktion des glialen Schadens und der Oligodendrozytenapoptose nachweisen. Granzym B ist also zumindest teilweise verantwortlich für die Schädigung, die durch T- Lymphozyten hervorgerufen wird. Um die zusätzliche Informationen über die Rolle der Immunmodulation in unseren Modellen zu gewinnen, untersuchten wir das koinhibitorische Molekül PD-1, einen CD-28 verwandten Rezeptor, der auf B- und T- Lymphozyten exprimiert wird. Bei der Untersuchung von Myelinmutanten des ZNS und PNS (PLPtg und P0+/-), die zusätzlich PD-1 defizient waren, konnten wir einen signifikanten Anstieg von CD8+ T- Lymphozyten und eine deutliche Verschlechterung des glialen Schadens beobachten. In PLPtg Mäusen induzierte die Abwesenheit von PD-1 verstärkte Oligodendrozytenapoptose und klonale Expansion. Außerdem neigen ZNS- Lymphozyten aber nicht periphere CD8+ T- Zellen zur verstärkten Sekretion von proinflammatorischen Zytokinen. In P0+/- Mäusen führt Abwesenheit von PD-1 zu moderaten motorischen und sensorischen Störungen, was die wichtige Rolle von PD-1 in immunologischen Regulationsmechanismen unterstreicht. Zusammenfassend kann man festhalten, daß Granzym B ein wichtiges Effektormolekül zytotoxischer T- Zellen in PLPtg Mäusen ist. PD-1 spielt eine wichtige Rolle in der Regulation von Effektorzellen in unseren Modellen für zentrale und periphere Myelinopathien. Veränderungen dieser Regulation können deutliche Neuroinflammation mit starker Myelinpathologie hervorrufen. Diese Ergebnisse können dazu beitragen, die starke klinische Variabilität von polygenen und sogar monogenen neurologischen Erkrankungen zu erklären.
Leonia cymosa (Violaceae) is a small tree from the under story of the Amazonian rain forest. I investigated the seed dispersal ecology of L. cymosa in plots of old growth terra firme forest located within the Cuyabeno Faunistic Reserve in north-eastern Ecuador. This species offered good conditions to examine the variation of traits of individual trees and the way they are linked with fruit removal from each tree. With this study I aimed to address the question whether frugivores exert selection pressures on fruits and the fruiting regime of fleshy fruited plants. The mean height of a fruiting L. cymosa was 6.6 m (range: 2 - 12.6 m). The median tree density was 11.8 trees per hectare. Trees grew in clusters consisting of different numbers of trees of different heights. L. cymosa flowered two times a year, in late February to March and in October. The respective fruiting seasons occurred in August/September and between March and May. The fruit pulp of L. cymosa contained the sugars fructose, glucose, and sucrose, the total soluble sugar being the first important nutritional compound of the fruit pulp. The second important compound was proteins. No lipids were found in the fruit pulp. The variation of nutritional quality of the fruits was high within trees. Nonetheless, significant differences were found among trees in all nutrient constituents studied. The maximum of ripe fruits produced per season by a single tree was 427. Median productivity of the trees was 45 ripe fruits throughout the fruiting season in 1999 (n=57) and 36 ripe fruits in 2000 (n=92). The maximum standing crop of fruits in a tree was 324 fruits (counted in 2000). Black mantle tamarins, Saguinus nigricollis (Callitrichidae), and squirrel monkeys, Saimiri sciureus (Cebidae), and possibly an unknown nocturnal frugivore consumed the fruits of L. cymosa at my study site. Green-rumped acouchis (Myoprocta pratti, Dasyproctidae) consumed fallen fruits and seeds underneath the trees. Black mantle tamarins and squirrel monkeys differed widely in their effectiveness as seed dispersers. Black mantle tamarins swallowed the seeds together with the fruit pulp and defecated intact seeds far away from the mother tree. Squirrel monkeys opened the fruits to suck and gnaw on the fruit pulp, and then dropped seeds to the forest floor below the tree crowns. Each of my study plots fell into the core home range of one group each of S. nigricollis and S. sciureus. Thus, the frugivore assemblage is small and disperser availability is limited for the individual tree of L. cymosa. In a sample of 6 trees of comparable and high fruit crop size, the total of ripe fruits removed from a tree throughout the whole fruiting season by the reliable seed disperser S. nigricollis was neither significantly correlated with the content of any of the nutrients measured in the fruit pulp (fructose, glucose, sucrose, total protein; pulp does not contain lipids), nor with total metabolisable energy, seed to pulp weight ratio, or water content of the fruit pulp. Feeding preferences for single sugars determined by other laboratory studies were not confirmed by this field study. The reliable seed disperser S. nigricollis does not seem to exert selective pressure on the nutrient content of the fruits of L. cymosa. Seasonal fruit crop size was the main predictor of all aspects of fruit removal by the effective disperser of L. cymosa, Saguinus nigricollis, as well as by the non-disperser, Saimiri sciureus. Trees with larger seasonal fruit crop size had a higher probability to have fruits removed by the disperser than those with small seasonal fruit crop sizes. They also had a higher number of fruits removed by the seed disperser. However, the proportion of fruits removed by the disperser decreased with increasing seasonal fruit crop size. In contrast, probability of fruit removal, the number of fruits removed, and the proportion of fruits removed by the non-disperser increased with increasing seasonal fruit crop sizes. The observed differences between disperser and non-disperser are due to differences in feeding capacity, group size and foraging behavior. Tamarins were less likely to harvest Leonia trees that were not or less completely covered by surrounding vegetation. This probably reflects a behavior to avoid predation by forest raptors. At high con-specific fruit abundance in the neighborhood, the proportion of fruits removed by tamarins was reduced. This suggests competition of trees for the disperser. My study revealed selection of the disperser on seasonal fruit crop size of L. cymosa. My results are consistent with the “fruit crop size hypothesis”. FCSH appears to constitute a valid framework also in the monkey-dispersed L. cymosa. My findings also show that factors beyond the tree’s control influenced fruit removal from Leonia trees. Disperser-mediated selection may be constrained (yet not impeded) by neighborhood conditions.
Mechanisms and adaptive significance of interspecific associations between tropical ant species
(2009)
Aggression between ants from different colonies or species is ubiquitous. Exceptions to this rule exist in the form of supercolonies (within a species) and interspecific associations (between species). Probably the most intimate interspecific association is the parabiosis, where two ant species live together in a common nest. They keep their brood separate but jointly use trails and often share food resources. Parabioses are restricted to few species pairings and occur in South American and Southeast Asian rainforests. While the South American parabioses have been studied, albeit poorly, almost nothing is known about their Southeast Asian counterparts. My PhD project focuses on Southeast Asian parabioses between the myrmicine Crematogaster modiglianii Emery 1900 and the considerably larger formicine Camponotus rufifemur Emery 1900. The two species frequently nest together in hollow trees in the tropical lowland rainforest of Borneo. The basic question of my PhD project is why these two species live together. I investigated both proximate and ultimate aspects of this question. For comparative purposes, I included studies on a trail-sharing association in the same habitat. On the proximate level, I investigated which mechanisms facilitate tolerance towards hetero-spe¬ci¬fic nestmates. Ants generally discriminate nestmates from non-nestmates via cuticular hydro¬carbons that function as colony recognition cues. I studied the specificity of nestmate recognition within and between the two parabiotic species. Using gas chromatography-mass spectrometry (GC-MS), I analyzed the cuticular substances in both ant species to find potential differences to non-parabiotic species, and to estimate the substance overlap among the two species. A high substance overlap would e.g. suggest that interspecific tolerance is caused by chemical mimicry. Finally, bioassays were conducted to evaluate the function of different cuticular compounds. Interspecific tolerance in the two parabiotic species was species-specific but not colony-specific. Ca. rufifemur tolerated all Cr. modiglianii individuals, even those from foreign colonies, but strongly attacked workers of other Crematogaster species. Cr. modiglianii, in turn, tolerated Ca. rufifemur workers of certain foreign colonies but attacked those of others. Chemical analyses revealed two sympatric, chemically distinct Ca. rufifemur varieties (‘red’ and ‘black’) with almost no hydrocarbon overlap. Cr. modiglianii only tolerated foreign Ca. rufifemur workers if they belonged to the same chemical variety as their own Ca. rufifemur partner. It also attacked other, non-parabiotic Camponotus species. Thus, reciprocal interspecific tolerance was restricted to the species Cr. modiglianii and Ca. rufifemur. Ca. rufifemur frequently tolerated conspecific non-nestmates of the same chemical variety. Minor workers were more often tolerated than majors, possibly because they possess two to three times lower hydrocarbon quantities per body surface than majors. In contrast, Cr. modiglianii nearly always attacked conspecific non-nestmates. Both species possessed hydrocarbons with considerably higher chain lengths than congeneric, non-parabiotic ant species. Long-chain hydrocarbons are less volatile than shorter ones and thus harder to perceive. They may thus considerably facilitate interspecific tolerance. Moreover, up to 98% of the cuticular hydrocarbons in Ca. rufifemur were methylbranched alkenes, which are highly unusual among insect cuticular hydrocarbons. Cr. modiglianii and Ca. rufifemur had almost no hydrocarbons in common, refuting chemical mimicry as a possible cause of interspecific tolerance. The only hydrocarbons common to both species were two methylbranched alkenes, which constituted 89% of the ‘red’ Ca. rufifemur hydrocarbon profile and also occurred in those Cr. modiglianii colonies that lived together with this Ca. rufifemur variety. Cr. modiglianii presumably acquired these two compounds from its red Ca. rufifemur partner. Cr. modiglianii was significantly less aggressive towards foreign Cr. modiglianii workers that were associated with the same Ca. rufifemur variety than to those associated with the respective other one. Hence, this species seemed to use recognition cues acquired from its parabiotic partner. Apart from hydrocarbons, both species possessed a set of hitherto unknown substances on their cuticle. The quantitative composition of the unknown compounds varied between parabiotic nests but was similar among the two species of a nest. They are probably produced in the Dufour glanf of Cr. modiglianii and transferred to their Ca. rufifemur partner. Possible transfer mechanisms include interspecific trophallaxis and ‘mounting behaviour’, where Cr. modiglianii climbed onto Ca. rufifemur workers without being displaced. Although the composition of the unknown compounds greatly varied between nests, they did not function as nestmate recognition cues since both species used hydrocarbons for nestmate recognition. However, the unknown compounds significantly reduced aggression in Ca. rufifemur. The ultimate, i.e. ecological and evolutionary aspects of my PhD research deal with potential costs and benefits that Cr. modiglianii and Ca. rufifemur may derive from the parabiotic association, their interactions with other species, and population genetic analyses. Additional studies on a trail-sharing association between three other ant species deal with two possible mechanisms that may cause or facilitate trail-sharing. Whether parabioses are parasitic, commensalistic, or mutualistic, is largely unknown and depends on the costs and benefits each party derives from the association. I therefore investigated food competition (as one of the most probable costs), differentiation of foraging niches (which can reduce competition), and several potential benefits of the parabiotic way of life. Besides, I studied interactions between the ant species and the hemiepiphyte Poikilospermum cordifolium. The foraging niches of the two species differed regarding foraging range, daily activity pattern, and food preferences. None of the two species aggressively displaced its partner species from baits. Thus, interference competition for food seemed to be low or absent. For both ant species, a number of benefits from the parabiotic lifestyle seem possible. They include interspecific trail-following, joint nest defence, provision of nest space by the partner species, food exchange via trophallaxis, and mutual brood care. If an ant species follows another species’ pheromone trails, it can reach food resources found by the other species. As shown by artificial extract trails, Ca. rufifemur workers indeed followed trails of Cr. modiglianii but not vice versa. Thus, Ca. rufifemur benefited from Cr. modiglianii’s knowledge on food sources (informational parasitism). In turn, Cr. modiglianii seemed to profit from nest defence by Ca. rufifemur. Ca. rufifemur majors are substantially larger than Cr. modiglianii workers. Although Cr. modiglianii often effectively defended the nest as well, it seemed likely that this species derived a benefit from its partner’s defensive abilities. In neotropical parabioses (ant-gardens), mutualistic epiphytes play an important role in providing nest space. The neotropical Camponotus benefits its Crematogaster partner by planting epiphyte seeds, for which Crematogaster is too small. Similarly, the Bornean parabioses often were inhabited by the hemiepiphyte Poikilospermum cordifolium (Barg.-Petr.) Merr (Cecropiaceae). P. cordifolium seedlings, saplings and sometimes larger indivi¬duals abundantly grew at the entrances of parabiotic nests. However, P. cordifolium provides no additional nest space and, apart from nutritive elaiosomes, perianths, and extrafloral nectar probably plays a less important role for the ants than the neotropical epiphytes. In conclusion, the parabiosis is probably beneficial to both species. The main benefits seem to be nest defence (for Cr. modiglianii) and interspecific trail-following (for Ca. rufifemur). However, Ca. rufifemur seems to be more dependent on its partner than vice versa. For both parabiotic species, I analyzed mitochondrial DNA of ants from different regions in Borneo. My data suggest that there are four genetically and chemically distinct, but closely related varieties of Camponotus rufifemur. In contrast, Crematogaster modiglianii showed high genetic differentiation between distant populations but was not differentiated into genetic or chemical varieties. This argues against variety-specific cocladogenesis between Cr. modiglianii and Ca. rufifemur, although a less specific coevolution of the two species is highly likely. In Bornean rainforests, trail-sharing associations of Polyrhachis (Polyrhachis) ypsilon Emery 1887 and Camponotus (Colobopsis) saundersi Emery 1889 are common and often include further species such as Dolichoderus cuspidatus Smith 1857. I investigated a trail-sharing association between these three species and studied two mechanisms that may cause or facilitate these associations: interspecific trail-following, i.e. workers following another species’ pheromone trail, and differential inter¬specific aggression. In trail-following assays, D. cuspidatus regularly followed extract trails of the other two species, thus probably parasitizing on their information on food sources. In contrast, only few P. ypsilon and Ca. saundersi workers followed hetero¬speci¬fic extract trails. Hence, the association between P. ypsilon and Ca. saundersi cannot be ex¬plained by foragers following heterospecific trails. In this case, trail-sharing may originate from few scout ants that do follow heterospecific pheromone trails and then lay their own trails. Interspecific aggression among P. ypsilon, Ca. saundersi and D. cuspidatus was strongly asymmetric, Ca. saundersi being submissive to the other two species. All three species discriminated between heterospecific workers from the same and a distant trail-sharing site. Thus, it seems likely that the species of a given trail-sharing site habituate to one another. Differential tolerance by dominant ant species may be mediated by selective habituation towards submissive species, and thereby influence the assembly of trail-sharing associations.
The olfactory system of leafcutting ants: neuroanatomy and the correlation to social organization
(2009)
In leaf-cutting ants (genera Atta and Acromyrmex), the worker caste exhibits a pronounced size-polymorphism, and division of labor is largely dependent on worker size (alloethism). Behavioral studies have shown a rich diversity of olfactory-guided behaviors, and the olfactory system seems to be highly developed and very sensitive. To allow fine-tuned behavioral responses to different tasks, adaptations within the olfactory system of different sized workers are expected. In a recent study, two different phenotypes of the antennal lobe of Atta vollenweideri workers were found: MG- and RG-phenotype (with and without a macroglomerulus, MG). The existence of the macroglomerulus is correlated to the body size of workers, with small workers showing the RG-phenotype and large workers showing the MG-phenotype. In the MG, the information about the releaser component of the trail-pheromone is processed. In the first part of my PhD-project, I focus on quantifying behavioral differences between different sized workers in Atta vollenweideri. The study analyzes the trail following behavior; which can be generally performed by all workers. An artificial trail consisting of the releaser component of the trail-pheromone in decreasing concentration was used to test the trail-following performance of individual workers. The trail-following performance of the polymorphic workers is depended of the existence of the MG in the antennal lobe. Workers possessing the MG-phenotype were significantly better in following a decreasing trail then workers showing the RG-phenotype. In the second part I address the question if there are more structural differences, besides the MG, in the olfactory system of different sized workers. Therefore I analyze whether the glomerular numbers are related to worker size. The antennal lobes of small workers contain ~390 glomeruli (low-number; LN-phenotype), and in large workers I found a substantially higher number of ~440 glomeruli (high-number; HN-phenotype). All LN-phenotype workers and some of the small HN-phenotype workers do not possess an MG (LN-RG-phenotype and HN-RG-phenotype) at all, whereas the remaining majority of HN-phenotype workers do possess an MG (HN-MG-phenotype). Mass-stainings of antennal olfactory receptor neurons revealed that the sensory tracts divide the antennal lobe into six clusters of glomeruli (T1-T6). In the T4-cluster ~50 glomeruli are missing in the LN-phenotype workers. Selective staining of single sensilla and their associated receptor neurons showed that T4-glomeruli are innervated by receptor neurons from the main type of olfactory sensilla, the Sensilla trichodea curvata which are also projecting to glomeruli in all other clusters. The other type of olfactory sensilla, the Sensilla basiconica, exclusively innervates T6-glomeruli. Quantitative analyses revealed a correlation between the number of Sensilla basiconica and the volume of T6 glomeruli in different sized workers. The results of both behavioral and neuroanatomical studies in Atta vollenweideri suggest that developmental plasticity of antennal-lobe phenotypes promotes differences in olfactory-guided behavior which may underlie task specialization within ant colonies. The last part of my project focuses on the evolutionary origin of the macroglomerulus and the number of glomeruli in the antennal lobe. I compared the number, volumes and position of the glomeruli of the antennal lobe of 25 different species from all three major Attini groups (lower, higher and leaf-cutting Attini). The antennal lobes of all investigated Attini comprise a high number of glomeruli (257-630). The highest number was found in Apterostigma cf. mayri. This species is at a basal position within the Attini phylogeny, and a high number of glomeruli might have been advantageous in the evolution of the advanced olfactory systems of this Taxa. The macroglomerulus can be found in all investigated leaf-cutting Attini, but in none of the lower and higher Attini species. It is found only in large workers, and is located close to the entrance of the antennal nerve in all investigated species. The results indicate that the presence of a macroglomerulus in large workers of leaf-cutting Attini is a derived overexpression of a trait in the polymorphic leaf-cutting species. It presumably represents an olfactory adaptation to elaborate foraging and mass recruitment systems, and adds to the complexity of division of labor and social organization known for this group.
The chick midbrain is subdivided into functionally distinct ventral and dorsal domains, tegmentum and optic tectum. In the mature tectum, neurons are organized in layers, while they form discrete nuclei in the tegmentum. An interesting characteristic of the embryonic brain is the development of a large optic tectum, of which the growth becomes obvious at embryonic day 3 (E3). Dorsoventral (DV) specification of the early midbrain should thus play a crucial role for the organization of the neuronal circuitry in optic tectum and tegmentum. In the first part of my thesis, I investigated regional commitment and establishment of cellular differences along the midbrain DV axis. I examined the commitment of gene expression patterns in isolated ventral and dorsal tissue in vivo and in vitro, and studied their cell mixing properties. Explant cultures, and grafting of dorsal midbrain into a ventral environment or vice versa, revealed a gradual increase in the autonomy of region-specific gene regulation between, which was accompanied by a gradual increase in differential adhesive properties from E2 to E3, once the DV axis polarity was fixed. These events happened at a time-point when the majority of midbrain cells are not yet differentiated. Long-term transplantation (6 - 9 days) using quail cells from ventral midbrain as grafts showed the same result. Hence, the results suggest that progressive specification of the midbrain DV axis is accompanied by progressively reduced cell mixing between dorsal and ventral precursors, leading to a partial regionalization of midbrain tissue into autonomous units of precursor cell populations. In the second part I investigated the genes that might be involved in regulating the growth of the tectum. In particular, I focused on the role of Pax7 transcription factor, a paired domain protein. The results suggested that Pax7 was involved in regulating the medial-lateral extension of the tectum. Over expression of Pax7 in dorsal midbrain led to an enlarged tectum accompanied by a raise in cell division, while Pax7 knockdown by shrank caused a reduction in tectum. The overall pattern of neuronal differentiation was not disturbed by an up or down regulation of Pax7. Pax7 also positively regulated Pax3, another pair-ruled gene expressed dorsally. These results suggest that Pax7 very likely together with Pax3 could facilitate or maintain neural cell proliferation in the midbrain at early stages and that a regulation of the size in that region does not influence the neuronal patterning of the developmental field. I further checked the expression and function of a GFPase Rab 23, that was suggested to be involved in the DV patterning in mouse neural tube as a negative regulator of Shh signaling. Overexpression of Rab23 indicated that it facilitated the expression of Pax7 and Pax3 in the neural tube and suppressed ventral genes like Nkx6.1 cell autonomously, however, it did not disturb neuronal patterning. Interestingly, a thorough expression study of Rab 23 during chick early development revealed that Rab23 is already expressed very early and asymmetrically during gastrulation, suggesting a possible role of Rab23 on the left-right determination of Hensen’s node. In combination with the result that Rab23 is expressed in the notochord early in development, I assume that both Rab23 and Shh exist in all neural progenitor cells initially, and when their expression patterns separate gradually the neural cells adopt a ventral or dorsal fate according to their location along the dorsoventral axis. The avian embryo is a classic system used widely to investigate questions of vertebrate development. The easy and cheap accessibility of the embryo for in ovo or ex ovo experiments all around the year make it an ideal animal model to work with. The only recently developed method of over expressing genes in specific cells or regions in the chick embryo by electroporation enabled me to study different ways of gene suppression using this way of gene transfection. Thus, I compared the effect of long-hairpin and short hairpin dsRNA in different vectors and antisense morpholino oligonucleotides. The results revealed that all hairpin dsRNA constructs did reduce gene and protein expression often accompanied by morphological changes. Most efficiently were shRNAi constructs cloned into a siRNA-specific vector – pSilencer 1.0-U6. Gene silencing was already well observed 36 hours after transfection. In comparison antisense morpholino oligonucleotides did not show such big gene reduction as the shRNA in pSilencer. Taken together, this methodical research proposes that the shRNA in the pSilencer vector was a good and effective tool to reduce gene and protein expression locally.
Around 10.000 – 150.000 endogenous DNA damage-induced lesions occur in a human body per day and cell. Accumulation of unrepaired lesions can lead to aneuploidy and the loss of genomic integrity which in turn contributes to tumor formation. Therefore, an efficient DNA damage response has to be initiated, in the end leading to cell cycle inhibition and induction of repair. Since it is known that a recently characterized human multiprotein complex named LINC (or human dREAM) together with B-MYB is involved in the regulation of G2/M gene expression (Plk1, cyclin B1, cdc2 etc.), its function in the DNA damage response was analyzed in this study. In growing cells B-MYB is associated to the LIN core complex which consists of 5 different proteins named LIN-9, LIN-54, LIN-52, LIN-37 and RbAp48. After induction of DNA damage B-MYB leaves the complex and binding of E2F4 and p130 to LINC is induced. Importantly, the upstream pathway leading to LINC rearrangement is dependent on the activation of p53 and p21. Interestingly, p53 -/- cells solely have the potential to block in the G2 phase of the cell cycle, thereby making them vulnerable for errors during G2 arrest induction or maintenance. Here I demonstrate that LINC rearrangement is absent in p53 -/- cells and that B-MYB/LINC binding to target gene promoters is increased. This in turn leads to an increased G2/M gene expression after DNA damage induction and triggers premature cell cycle re-entry (checkpoint adaptation). Significantly, B-MYB expression is increased in p53 mutated primary breast cancer tumors and correlates with poor prognosis and reoccurrence probably due to its function in checkpoint adaptation. This study gives evidence that inhibition of B-MYB gene expression or B-MYB function in p53 mutant tumors could be a good choice for adjuvant therapy.
Gene and genome duplications are major mechanisms of eukaryotic genome evolution. Three rounds of genome duplication have occurred in the vertebrate lineage, two rounds (1R, 2R) during early vertebrate evolution and a third round, the fish-specific genome duplication (FSGD), in ray-finned fishes at the base of the teleost lineage. Whole genome duplications (WGDs) are considered to facilitate speciation processes and to provide the genetic raw material for major evolutionary transitions and increases in morphological complexity. In the present study, I have used comparative genomic approaches combining molecular phylogenetic reconstructions, synteny analyses as well as gene function studies (expression analyses and knockdown experiments) to investigate the evolutionary consequences and significance of the three vertebrate WGDs. First, the evolutionary history of the endothelin signaling system consisting of endothelin ligands and receptors was reconstructed. The endothelin system is a key component for the development of a major vertebrate innovation, the neural crest. This analysis shows that the endothelin system emerged in an ancestor of the vertebrate lineage and that its members in extant vertebrate genomes are derived from the vertebrate WGDs. Each round of WGD was followed by co-evolution of the expanding endothelin ligand and receptor repertoires. This supports the importance of genome duplications for the origin and diversification of the neural crest, but also underlines a major role for the co-option of new genes into the neural crest regulatory network. Next, I have studied the impact of the FSGD on the evolution of teleost pigment cell development and differentiation. The investigation of 128 genes showed that pigmentation genes have been preferentially retained in duplicate after the FSGD so that extant teleost genomes contain around 30% more putative pigmentation genes than tetrapods. Large parts of pigment cell regulatory pathways are present in duplicate being potentially involved in teleost pigmentary innovations. There are also important differences in the retention of duplicated pigmentation genes among divergent teleost lineages. Functional studies of pigment synthesis enzymes in zebrafish and medaka, particularly of the tyrosinase family, revealed lineage-specific functional evolution of duplicated pigmentation genes in teleosts, but also pointed to anciently conserved gene functions in vertebrates. These results suggest that the FSGD has facilitated the evolution of the teleost pigmentary system, which is the most complex and diverse among vertebrates. In conclusion, the present study supports a major role of WGDs for phenotypic evolution and biodiversity in vertebrates, particularly in fish.
Chlamydia are Gram-negative obligate intracellular bacteria responsible for a wide spectrum of relevant diseases. Due to their biphasic developmental cycle Chlamydia depend on an intact host cell for replication and establishment of an acute infection. Chlamydia have therefore evolved sophisticated strategies to inhibit programmed cell death (PCD) induced by a variety of stimuli and to subvert the host immune system. This work aimed at elucidating whether an infection with C. trachomatis can influence the cellular response to double-stranded RNA (dsRNA). The synthesis of dsRNA is a prominent feature of viral replication inside infected cells that can induce both PCD and the activation of a cellular innate immune response. In order to mimic chlamydial and viral co-infections, Chlamydia-infected cells were transfected with polyinosinic:polycytidylic acid (polyI:C), a synthetic dsRNA. In the first part of this work it was investigated whether C. trachomatis-infected host cells could resist apoptosis induced by polyI:C. A significant reduction in apoptosis, determined by PARP cleavage and DNA fragmentation, could be observed in infected cells. It could be shown that processing of the initiator caspase-8 was inhibited in infected host cells. This process was dependent on early bacterial protein synthesis and was specific for dsRNA because apoptosis induced by TNFalpha was not blocked at the level of caspase-8. Interestingly, the activation of cellular factors involved in apoptosis induction by dsRNA, most importantly PKR and RNase L, was not abrogated in infected cells. Instead, RNA interference experiments revealed the crucial role of cFlip, a cellular caspase-8 inhibitor, for chlamydial inhibition of dsRNA-induced apoptosis. First data acquired by co-immunoprecipitation experiments pointed to an infection-induced concentration of cFlip in the dsRNA-induced death complex of caspase-8 and FADD. In the second part of this work, the chlamydial influence on the first line of defense against viral infections, involving expression of interferons and interleukins, was examined. Activation of the interferon regulatory factor 3 (IRF-3) and the NF-kappaB transcription factor family member p65, both central regulators of the innate immune response to dsRNA, was altered in Chlamydia-infected epithelial cells. polyI:C-induced degradation of IkappaB-alpha, the inhibitor of NF-kappaB, was accelerated in infected cells which was accompanied by a change in nuclear translocation of the transcription factor. Translocation of IRF-3, in contrast, was significantly blocked upon infection. Together the data presented here demonstrate that infection with C. trachomatis can drastically alter the cellular response to dsRNA and imply an impact of chlamydial infections on the outcome of viral super-infections.
Genome sequence analysis A combination of genome analysis application has been established here during this project. This offers an efficient platform to interactively compare similar genome regions and reveal loci differences. The genes and operons can be rapidly analyzed and local collinear blocks (LCBs) categorized according to their function. The features of interests are parsed, recognized, and clustered into reports. Phylogenetic relationships can be readily examined such as the evolution of critical factors or a certain highly-conserved region. The resulting platform-independent software packages (GENOVA and inGeno), have been proven to be efficient and easy to handle in a number of projects. The capabilities of the software allowed the investigation of virulence factors, e.g., rsbU, strains’ biological design, and in particular pathogenicity feature storage and management. We have successfully investigated the genomes of Staphylococcus aureus strains (COL, N315, 8325, RN1HG, Newman), Listeria spp. (welshimeri, innocua and monocytogenes), E.coli strains (O157:H7 and MG1655) and Vaccinia strains (WR, Copenhagen, Lister, LIVP, GLV-1h68 and parental strains). Metabolic network analysis Our YANAsquare package offers a workbench to rapidly establish the metabolic network of such as Staphylococcous aureus bacteria in genome-scale size as well as metabolic networks of interest such as the murine phagosome lipid signalling network. YANAsquare recruits reactions from online databases using an integrated KEGG browser. This reduces the efforts in building large metabolic networks. The involved calculation routines (METATOOL-derived wrapper or native Java implementation) readily obtain all possible flux modes (EM/EP) for metabolite fluxes within the network. Advanced layout algorithms visualize the topological structure of the network. In addition, the generated structure can be dynamically modified in the graphic interface. The generated network as well as the manipulated layout can be validated and stored (XML file: scheme of SBML level-2). This format can be further parsed and analyzed by other systems biology software, such as CellDesigner. Moreover, the integrated robustness-evaluation routine is able to examine the synthesis rates affected by each single mutation throughout the whole network. We have successfully applied the method to simulate single and multiple gene knockouts, and the affected fluxes are comprehensively revealed. Recently we applied the method to proteomic data and extra-cellular metabolite data of Staphylococci, the physiological changes regarding the flux distribution are studied. Calculations at different time points, including different conditions such as hypoxia or stress, show a good fit to experimental data. Moreover, using the proteomic data (enzyme amounts) calculated from 2D-Gel-EP experiments our study provides a way to compare the fluxome and the enzyme expression. Oncolytic vaccinia virus (VACV) We investigated the genetic differences between the de novo sequence of the recombinant oncolytic GLV-1h68 and other related VACVs, including function predictions for all found genome differences. Our phylogenetic analysis indicates that GLV-1h68 is closest to Lister strains but has lost several ORFs present in its parental LIVP strain, including genes encoding CrmE and a viral Golgi anti-apoptotic protein, v-GAAP. Functions of viral genes were either strain-specific, tissue-specific or host-specific comparing viral genes in the Lister, WR and COP strains. This helps to rationally design more optimized oncolytic virus strains to benefit cancer therapy in human patients. Identified differences from the comparison in open reading frames (ORFs) include genes for host-range selection, virulence and immune modulation proteins, e.g. ankyrin-like proteins, serine proteinase inhibitor SPI-2/CrmA, tumor necrosis factor (TNF) receptor homolog CrmC, semaphorin-like and interleukin-1 receptor homolog proteins. The contribution of foreign gene expression cassettes in the therapeutic and oncolytic virus GLV-1h68 was studied, including the F14.5L, J2R and A56R loci. The contribution of F14.5L inactivation to the reduced virulence is demonstrated by comparing the virulence data of GLV-1h68 with its F14.5L-null and revertant viruses. The comparison suggests that insertion of a foreign gene expression cassette in a nonessential locus in the viral genome is a practical way to attenuate VACVs, especially if the nonessential locus itself contains a virulence gene. This reduces the virulence of the virus without compromising too much the replication competency of the virus, the key to its oncolytic activity. The reduced pathogenicity of GLV-1h68 was confirmed by our experimental collaboration partners in male mice bearing C6 rat glioma and in immunocompetent mice bearing B16-F10 murine melanoma. In conclusion, bioinformatics and experimental data show that GLV-1h68 is a promising engineered VACV variant for anticancer therapy with tumor-specific replication, reduced pathogenicity and benign tissue tropism.
Members of the enabled/vasodilator-stimulated phosphoprotein (Ena/VASP) family are important regulators of the actin cytoskeleton dynamics. VASP functions as well as its interactions with other proteins are regulated by phosphorylation at three sites - serine157 (S157), serine239 (S239), and threonine278 (T278) in humans. cAMP- and cGMP- dependent protein kinases phosphorylate S157 and S239, respectively. In contrast, the kinase responsible for T278 was as yet unknown and identified in the first part of this thesis. In a screen for T278 phosphorylating kinases using a phospho-specific antibody against phosphorylated T278 AMP-activated protein kinase (AMPK) was identified in endothelial cells. Mutants of AMPK with altered kinase-activity modulate T278-phosphorylation levels in cells. AMPK-driven T278-phosphorylation impaired stress fiber formation and changed cell morphology in living cells. AMPK is a fundamental sensor of cellular and whole body energy homeostasis. Zucker Diabetic Fatty (ZDF) rats, which are an animal model for type II diabetes mellitus, were used to analyze the impact of phosphorylated T278 in vivo. AMPK-activity and T278-phosphorylation were substantially reduced in arterial vessel walls of ZDF rats in comparison to control animals. These findings demonstrate that VASP is a new AMPK substrate, that VASP phosphorylation mediates the effects of metabolic regulation on actin cytoskeleton rearrangements, and that this signaling system becomes down-regulated in diabetic vessel disorders in rats. In the second part of this thesis, a functional analysis of differential VASP phosphorylations was performed. To systematically address VASP phosphorylation patterns, a set of VASP phosphomimetic mutants was cloned. These mutants enable the mimicking of defined phosphorylation patterns and the specific analysis of single kinase-mediated phosphorylations. VASP localization to the cell periphery was increased by S157- phosphorylation and modulated by phosphorylation at S239 and T278. Latter phosphorylations synergistically reduced actin polymerization. In contrast, S157- phosphorylation had no effect on actin-dynamics. Taken together, the results of the second part show that phosphorylation of VASP serves as a fine regulator of localization and actin polymerization activity. In summary, this study revealed the functions of VASP phosphorylations and established novel links between signaling pathways and actin cytoskeleton rearrangement.
Bispecific T cell engager (BiTE) display a novel design among the class of bispecific antibodies and hold great promise to fight diverse cancers. BiTE molecules consist of two different binding entities derived from two human IgG antibodies connected by a short peptide linker. Their binding arms are directed against the CD3e chain of the T cell receptor on T cells and against an antigen that is specific for (e.g., CD19 for lymphoma in MT103) or over-expressed on (e.g., EpCAM for epithelial cancer in MT110) tumor cells. Without requirement for pre- or co-stimulation, BiTE molecules efficiently redirect CD3+ T cells towards tumor cells expressing the relevant target antigen. Only a BiTE molecule simultaneously bound to both tumor cell and T cell activates the T cell to exert its cytolytic function resulting in tumor cell death. In T cells stimulated with both BiTE and target cells, elevated levels of caspase activation and increased expression of cytotoxic and signaling proteins are observed. These include cytolytic proteins granzyme B and perforin, activation markers CD69 and CD25 and adhesion molecules CD2 and LFA-1. Activated T cells secrete the usual mix of cytokines, among them pro-inflammatory cytokines IFN-g and TNF-a. The membrane of tumor cells expressing the relevant target antigen is perforated during the attack of BiTE-stimulated effector cells as can be concluded from adenylate kinase release from the cytosol of tumor cells. Ca2+-chelator EGTA completely blocked BiTE-mediated activation of caspases and tumor cell lysis. As perforin is strictly Ca2+-dependent, a major role for this pore-forming protein is assumed for the elimination of tumor cells via BiTE-stimulated T cells. Granzyme B and caspases are main players in BiTE-mediated elimination of tumor cells. Inhibitors of granzyme B or caspases reduce or block, respectively the activation of caspases. However, other signals of apoptosis (cleavage of PARP and fragmentation of DNA) were only reduced by granzyme B inhibitor or caspase inhibitor. Most interestingly, the lytic capacity of BiTE molecules was not impaired by granzyme B inhibitor or caspase inhibitor. It seems that there is no requirement for granzyme B and caspases to be present simultaneously. Instead the data presented provide evidence that they can be replaced one at a time by related proteins. Pre-incubation of effector cells with the glucocorticoids dexamethasone or methylprednisolone resulted in markedly decreased secretion of cytokines by T cells yet only a small reduction in the expression of activation markers and adhesion molecules on T cells and specific lysis of tumor cells upon BiTE stimulation. Soluble factors secreted in an undirected manner by BiTE-stimulated T cells do not mediate tumor cell death by themselves. Bystander cells negative for the antigen that is recognized by the BiTE molecule will not be compromised by BiTE activity. The cytokine TGF-b reduced proliferation as well as granzyme B and perforin expression of BiTE-stimulated T cells. Redirected lysis by BiTE-activated T cells was also decreased under the influence of TGF-b, however lysis was still performed at a reasonable rate (72 % of target cells). TGF-b does not exert a deleterious effect on lytic potential of BiTE-stimulated T cells. The minimal anticipated biological effect level for the BiTE MT110 was determined for the entry of MT110 into phase I clinical studies. Experiments analyzing redirected lysis of tumor cells, expression of activation marker CD25 and cytokine release by T cells revealed a MABEL value of 50 pg/ml for MT110.
Like many other social insect societies, honeybees collectively share the resources they gather by feeding each other. These feeding contacts, known as trophallaxis, are regarded as the fundamental basis for social behavior in honeybees and other social insects for assuring the survival of the individual and the welfare of the group. In honeybees, where most of the trophallactic contacts are formed in the total darkness of the hive, the antennae play a decisive role in initiation and maintenance of the feeding contact, because they are sensitive to gustatory stimuli. The sequences of behaviors performed by the receiver bees at the beginning of a feeding contact includes the contact of one antenna with the mouthparts of a donor bee where the regurgitated food is located. The antennal motor action is characterized by behavioral asymmetry, which is novel among communicative motor actions in invertebrates. This preference of right over left antenna is without exception even after removal of the antennal flagellum. This case of laterality in basic social interaction might have its reason in the gustatory asymmetry in the antennae, because the right antenna turns out to be significantly more sensitive to stimulation with sugar water of various concentrations than the left one. Trophallactic contacts which guarantee a constant access to food for every individual in the hive are vitally important to the honeybee society, because honeybees are heterothermic insects which actively regulate their thoracic temperature. Even though the individual can regulate its body temperature, its heating performance is strictly limited by the amount of sugar ingested. The reason for this is that honeybees use mostly the glucose in their hemolymph as the energy substrate for muscular activity, and the heat producing flight muscles are among the metabolically most active tissues known. The fuel for their activity is honey; processed nectar with a sugar content of ~80% stored in the honeycomb. The results show that the sugar content of the ingested food correlates positively with the thoracic temperature of the honeybees even if they are caged and show no actual heating-related behavior as in brood warming or heating in the centre of the winter cluster. Honeybees actively regulate their brood temperature by heating to keep the temperature between 33 °C to 36 °C if ambient temperatures are lower. Heating rapidly depletes the worker’s internal energy; therefore the heating performance is limited by the honey that is ingested before the heating process. This study focused on the behavior and the thoracic temperature of the participants in trophallactic food exchanges on the brood comb. The brood area is the centre of heating activity in the hive, and therefore the region of highest energy demand. The results show that the recipients in a trophallactic food exchange have a higher thoracic temperature during feeding contacts than donors, and after the feeding contact the former engage in brood heating more often. The donor bees have lower thoracic temperature and shuttle constantly between honey stores and the brood comb, where they transfer the stored honey to heating bees. In addition, the results show a heat-triggered mechanism that enables donor and recipient to accomplish trophallactic contacts without delay in the total darkness of the hive in the brood area as the most energy consuming part of the hive. Providing heat-emitting workers with small doses of high performance fuel contributes to an economic distribution of resources consistent with the physiological conditions of the bees and the ecological requirements of the hive, resulting in a highly economical resource management system which might be one of the factors favouring the evolution of perennial bee colonies in temperate regions. The conclusion of these findings suggests a resource management strategy that has evolved from submissive placation behavior as it is seen in honeybees, bumblebees and other hymenopterans. The heat-triggered feedback mechanism behind the resource management of the honeybee´s thermoregulatory behavior reveals a new aspect of the division of labor and a new aspect of communication, and sheds new light on sociality in honeybees.
Recent progresses and developments in molecular biology provide a wealth of new but insufficiently characterised data. This fund comprises amongst others biological data of genomic DNA, protein sequences, 3-dimensional protein structures as well as profiles of gene expression. In the present work, this information is used to develop new methods for the characterisation and classification of organisms and whole groups of organisms as well as to enhance the automated gain and transfer of information. The first two presented approaches (chapters 4 und 5) focus on the medically and scientifically important enterobacteria. Its impact in medicine and molecular biology is founded in versatile mechanisms of infection, their fundamental function as a commensal inhabitant of the intestinal tract and their use as model organisms as they are easy to cultivate. Despite many studies on single pathogroups with clinical distinguishable pathologies, the genotypic factors that contribute to their diversity are still partially unknown. The comprehensive genome comparison described in Chapter 4 was conducted with numerous enterobacterial strains, which cover nearly the whole range of clinically relevant diversity. The genome comparison constitutes the basis of a characterisation of the enterobacterial gene pool, of a reconstruction of evolutionary processes and of comprehensive analysis of specific protein families in enterobacterial subgroups. Correspondence analysis, which is applied for the first time in this context, yields qualitative statements to bacterial subgroups and the respective, exclusively present protein families. Specific protein families were identified for the three major subgroups of enterobacteria namely the genera Yersinia and Salmonella as well as to the group of Shigella and E. coli by applying statistical tests. In conclusion, the genome comparison-based methods provide new starting points to infer specific genotypic traits of bacterial groups from the transfer of functional annotation. Due to the high medical importance of enterobacterial isolates their classification according to pathogenicity has been in focus of many studies. The microarray technology offers a fast, reproducible and standardisable means of bacterial typing and has been proved in bacterial diagnostics, risk assessment and surveillance. The design of the diagnostic microarray of enterobacteria described in chapter 5 is based on the availability of numerous enterobacterial genome sequences. A novel probe selection strategy based on the highly efficient algorithm of string search, which considers both coding and non-coding regions of genomic DNA, enhances pathogroup detection. This principle reduces the risk of incorrect typing due to restrictions to virulence-associated capture probes. Additional capture probes extend the spectrum of applications of the microarray to simultaneous diagnostic or surveillance of antimicrobial resistance. Comprehensive test hybridisations largely confirm the reliability of the selected capture probes and its ability to robustly classify enterobacterial strains according to pathogenicity. Moreover, the tests constitute the basis of the training of a regression model for the classification of pathogroups and hybridised amounts of DNA. The regression model features a continuous learning capacity leading to an enhancement of the prediction accuracy in the process of its application. A fraction of the capture probes represents intergenic DNA and hence confirms the relevance of the underlying strategy. Interestingly, a large part of the capture probes represents poorly annotated genes suggesting the existence of yet unconsidered factors with importance to the formation of respective virulence phenotypes. Another major field of microarray applications is gene expression analysis. The size of gene expression databases rapidly increased in recent years. Although they provide a wealth of expression data, it remains challenging to integrate results from different studies. In chapter 6 the methodology of an unsupervised meta-analysis of genome-wide A. thaliana gene expression data sets is presented, which yields novel insights in function and regulation of genes. The application of kernel-based principal component analysis in combination with hierarchical clustering identified three major groups of contrasts each sharing overlapping expression profiles. Genes associated with two groups are known to play important roles in Indol-3 acetic acid (IAA) mediated plant growth and development as well as in pathogen defence. Yet uncharacterised serine-threonine kinases could be assigned to novel functions in pathogen defence by meta-analysis. In general, hidden interrelation between genes regulated under different conditions could be unravelled by the described approach. HMMs are applied to the functional characterisation of proteins or the detection of genes in genome sequences. Although HMMs are technically mature and widely applied in computational biology, I demonstrate the methodical optimisation with respect to the modelling accuracy on biological data with various distributions of sequence lengths. The subunits of these models, the states, are associated with a certain holding time being the link to length distributions of represented sequences. An adaptation of simple HMM topologies to bell-shaped length distributions described in chapter 7 was achieved by serial chain-linking of single states, while residing in the class of conventional HMMs. The impact of an optimisation of HMM topologies was underlined by performance evaluations with differently adjusted HMM topologies. In summary, a general methodology was introduced to improve the modelling behaviour of HMMs by topological optimisation with maximum likelihood and a fast and easily implementable moment estimator. Chapter 8 describes the application of HMMs to the prediction of interaction sites in protein domains. As previously demonstrated, these sites are not trivial to predict because of varying degree in conservation of their location and type within the domain family. The prediction of interaction sites in protein domains is achieved by a newly defined HMM topology, which incorporates both sequence and structure information. Posterior decoding is applied to the prediction of interaction sites providing additional information of the probability of an interaction for all sequence positions. The implementation of interaction profile HMMs (ipHMMs) is based on the well established profile HMMs and inherits its known efficiency and sensitivity. The large-scale prediction of interaction sites by ipHMMs explained protein dysfunctions caused by mutations that are associated to inheritable diseases like different types of cancer or muscular dystrophy. As already demonstrated by profile HMMs, the ipHMMs are suitable for large-scale applications. Overall, the HMM-based method enhances the prediction quality of interaction sites and improves the understanding of the molecular background of inheritable diseases. With respect to current and future requirements I provide large-scale solutions for the characterisation of biological data in this work. All described methods feature a highly portable character, which allows for the transfer to related topics or organisms, respectively. Special emphasis was put on the knowledge transfer facilitated by a steadily increasing wealth of biological information. The applied and developed statistical methods largely provide learning capacities and hence benefit from the gain of knowledge resulting in increased prediction accuracies and reliability.
In this work, a behavioural analysis of different mutants of the fruit fly Drosophila melanogaster has been carried out. Primarily, the gap climbing behaviour (Pick & Strauss, 2005) has been assayed as it lends itself for the investigation of decision making processes and the neuronal basis of adaptive behaviour. Furthermore it shows how basic motor actions can be combined into a complex motor behaviour. Thanks to the neurogenetic methods, Drosophila melanogaster has become an ideal study object for neurobiological questions. Two different modules of climbing control have been examined in detail. For the decision making, the mutant climbing sisyphus was analysed. While wild-type flies adapt the initiation of climbing behaviour to the width of the gap and the probability for a successful transition. climbing sisyphus flies initiate climbing behaviour even at clearly insurmountable gap widths. The climbing success itself is not improved in comparison to the wild-type siblings. The mutant climbing sisyphus is a rare example of a hyperactive mutant besides many mutants that show a reduced activity. Basic capabilities in vision have been tested in an optomotor and a distance-estimation paradigm. Since they are not affected, a defect in decision making is most probably the cause of this behavioural aberration. A second module of climbing control is keeping up orientation towards the opposite side of the gap during the execution of climbing behaviour. Mutants with a structural defect in the protocerebral bridge show abnormal climbing behaviour. During the climbing attempt, the longitudinal body axis does not necessarily point into the direction of the opposite side. Instead, many climbing events are initiated at the side edge of the walking block into the void and have no chance to ever succeed. The analysed mutants are not blind. In one of the mutants, tay bridge1 (tay1) a partial rescue attempt used to map the function in the brain succeeded such that the state of the bridge was restored. That way, a visual targeting mechanism has been activated, allowing the flies to target the opposite side. When the visibility of the opposing side was reduced, the rescued flies went back to a tay1 level of directional scatter. The results are in accord with the idea that the bridge is a central constituent of the visual targeting mechanism. The tay1 mutant was also analysed in other behavioural paradigms. A reduction in walking speed and walking activity in this mutant could be rescued by the expression of UAS-tay under the control of the 007Y-GAL4 driver line, which concomitantly restores the structure of the protocerebral bridge. The separation of bridge functions from functions of other parts of the brain of tay1 was accomplished by rescuing the reduced optomotor compensation in tay1 by the mb247-GAL4>UAS-tay driver. While still having a tay1-like protocerebral bridge, mb247-GAL4 rescue flies are able to compensate at wild-type levels. An intact compensation is not depended on the tay expression in the mushroom bodies, as mushroom body ablated flies with a tay1 background and expression of UAS-tay under the control of mb247-GAL4 show wild-type behaviour as well. The most likely substrate for the function are currently unidentified neurons in the fan-shaped body, that can be stained with 007Y-GAL4 and mb247-GAL4 as well.
The phylum Tardigrada consists of about 1000 described species to date. The animals live in habitats within marine, freshwater and terrestrial ecosystems allover the world. Tardigrades are polyextremophiles. They are capable to resist extreme temperature, pressure or radiation. In the event of desiccation, tardigrades enter a so-called tun stage. The reason for their great tolerance capabilities against extreme environmental conditions is not discovered yet. Our Funcrypta project aims at finding answers to the question what mechanisms underlie these adaption capabilities particularly with regard to the species Milnesium tardigradum. The first part of this thesis describes the establishment of expressed sequence tags (ESTs) libraries for different stages of M. tardigradum. From proteomics data we bioinformatically identified 144 proteins with a known function and additionally 36 proteins which seemed to be specific for M. tardigradum. The generation of a comprehensive web-based database allows us to merge the proteome and transcriptome data. Therefore we created an annotation pipeline for the functional annotation of the protein and nucleotide sequences. Additionally, we clustered the obtained proteome dataset and identified some tardigrade-specific proteins (TSPs) which did not show homology to known proteins. Moreover, we examined the heat shock proteins of M. tardigradum and their different expression levels depending on the actual state of the animals. In further bioinformatical analyses of the whole data set, we discovered promising proteins and pathways which are described to be correlated with the stress tolerance, e.g. late embryogenesis abundant (LEA) proteins. Besides, we compared the tardigrades with nematodes, rotifers, yeast and man to identify shared and tardigrade specific stress pathways. An analysis of the 50 and 30 untranslated regions (UTRs) demonstrates a strong usage of stabilising motifs like the 15-lipoxygenase differentiation control element (15-LOX-DICE) but also reveals a lack of other common UTR motifs normally used, e.g. AU rich elements. The second part of this thesis focuses on the relatedness between several cryptic species within the tardigrade genus Paramacrobiotus. Therefore for the first time, we used the sequence-structure information of the internal transcribed spacer 2 (ITS2) as a phylogenetic marker in tardigrades. This allowed the description of three new species which were indistinguishable using morphological characters or common molecular markers like the 18S ribosomal ribonucleic acid (rRNA) or the Cytochrome c oxidase subunit I (COI). In a large in silico simulation study we also succeeded to show the benefit for the phylogenetic tree reconstruction by adding structure information to the ITS2 sequence. Next to the genus Paramacrobiotus we used the ITS2 to corroborate a monophyletic DO-group (Sphaeropleales) within the Chlorophyceae. Additionally we redesigned another comprehensive database—the ITS2 database resulting in a doubled number of sequence-structure pairs of the ITS2. In conclusion, this thesis shows the first insights (6 first author publications and 4 coauthor publications) into the reasons for the enormous adaption capabilities of tardigrades and offers a solution to the debate on the phylogenetic relatedness within the tardigrade genus Paramacrobiotus.
The Popeye domain containing (Popdc) gene family of membrane proteins is predominantly expressed in striated and smooth muscle tissues and has been shown to act as novel cAMP-binding proteins. In mice, loss of Popdc1 and Popdc2, respectively, affects sinus node function in the postnatal heart in an age and stress-dependent manner. In this thesis, I examined gene expression pattern and function of the Popdc gene family during zebrafish development with an emphasis on popdc2. Expression of the zebrafish popdc2 was exclusively present in cardiac and skeletal muscle during cardiac development, whereas popdc3 was expressed in striated muscle tissue and in distinct regions of the brain. In order to study the function of these genes, an antisense morpholino-based knockdown approach was used. Knockdown of popdc2 resulted in aberrant development of facial and tail musculature. In the heart, popdc2 morphants displayed irregular ventricular contractions with 2:1 and 3:1 ventricular pauses. Recordings of calcium transients using a transgenic indicator line Tg(cmlc2:gCaMP)s878 and selective plane illumination microscopy (SPIM) revealed the presence of an atrioventricular (AV) block in popdc2 morphants as well as a complete heart block. Interestingly, preliminary data revealed that popdc3 morphants developed a similar phenotype. In order to find a morphological correlate for the observed AV conduction defect, I studied the structure of the AV canal in popdc2 morphants using confocal analysis of hearts of the transgenic line Tg(cmlc2:eGFP-ras)s883, which outlines individual cardiac myocytes with the help of membrane-localized GFP. However, no evidence for morphological alterations was obtained. To ensure that the observed arrhythmia phenotype in the popdc2 morphant was based on a myocardial defect and not caused by defective valve development, live imaging was performed revealing properly formed valves. Thus, in agreement with the data obtained in knockout mice, popdc2 and popdc3 genes in zebrafish are involved in the regulation of cardiac electrical activity. However, both genes are not required for cardiac pacemaking, but they play essential roles in AV conduction. In order to elucidate the biological importance of cAMP-binding, wild type Popdc1 as well as mutants with a significant reduction in binding affinity for cAMP in vitro were overexpressed in zebrafish embryos. Expression of wild type Popdc1 led to a cardiac insufficiency phenotype characterized by pericardial edema and venous blood retention. Strikingly, the ability of the Popdc1 mutants to induce a cardiac phenotype correlated with the binding affinity for cAMP. These data suggest that cAMP-binding represents an important biological property of the Popdc protein family.
Bone Morphogenetic Proteins (BMPs) are secreted multifunctional signaling proteins that play an important role during development, maintenance and regeneration of tissues and organs in almost all vertebrates and invertebrates. BMPs transmit their signals by binding to two types of serine-/threonine-kinase receptors. BMPs bind first to their high affinity receptor, thereby recruiting their low affinity receptor into the complex. This receptor assembly starts a Smad (Small mothers against decapentaplegic) protein signaling cascade which regulates the transcription of responsive genes. Up to date, only seven type I and five type II receptors are known for more than 30 ligands. Therefore, many BMP ligands can recruit more than one receptor subtype. Vice versa, receptors can bind to several ligands, indicating a highly promiscuous ligand-receptor interaction. This raises the following questions: (i) How are BMPs able to induce ligand-specific signals, despite forming complexes with identical receptor composition and (ii) how are they able to recognize and bind various binding partners in a highly specific manner. From the ligand’s point of view, heterodimeric BMPs are valuable tools for studying the interplay between different sets of receptors, thereby providing new insights into how the various BMP signals can be generated. This study describes the expression and purification of the heterodimers BMP-2/6 and -2/7 from E.coli cells. BIAcore interaction studies and various in vitro cell activity assays revealed that the generated heterodimers are biologically active. Furthermore, BMP-2/6 and -2/7 exhibit a higher biological activity in most of the cell assays compared to their homodimeric counterparts. In addition, the BMP type I receptor BMPR-IA is involved in heterodimeric BMP signaling. However, the usage of other type I receptor subtypes (e.g. ActR-I) building a heteromeric ligand-receptor type I complex as indicated in previous works could not be determined conclusively. Furthermore, BMP heterodimers seem to require only one type I receptor for signaling. From the receptors’ point of view, the BMP type I receptor BMPR-IA is a prime example for its promiscuous binding to different BMP ligands. The extracellular binding interface of BMPR-IA is mainly unfolded in its unbound form, requiring a large induced fit to adopt the conformation when bound to its ligand BMP-2. In order to unravel whether the binding promiscuity of BMPR-IA is linked to structural plasticity of its binding interface, the interaction of BMPR-IA bound to an antibody Fab fragment was investigated. The Fab fragment was selected because of its ability to recognize the BMP-2 binding epitope on BMPR-IA, thus neutralizing the BMP-2 mediated receptor activation. This study describes the crystal structure of the complex of the extracellular domain of BMPR-IA bound to the antibody Fab fragment AbyD1556. The crystal structure revealed that the contact surface of BMPR-IA overlaps extensively with the contact surface of BMPR-IA for BMP-2 interaction. Although the contact epitopes of BMPR-IA to both binding partners coincide, the three-dimensional structures of BMPR-IA in both complexes differ significantly. In contrast to the structural differences, alanine-scanning mutagenesis of BMPR-IA showed that the functional determinants for binding to both the antibody and BMP-2 are almost identical. Comparing the structures of BMPR-IA bound to BMP-2 or to the Fab AbyD1556 with the structure of unbound BMPR-IA revealed that binding of BMPR-IA to its interaction partners follows a selection fit mechanism, possibly indicating that the ligand promiscuity of BMPR-IA is inherently encoded by structural adaptability.
Cooperation is beneficial for social groups and is exemplified in its most sophisticated form in social insects. In particular, eusocial Hymenoptera, like ants and honey bees, exhibit a level of cooperation only rarely matched by other animals. To assure effective defense of group members, foes need to be recognized reliably. Ants use low-volatile, colony-specific profiles of cuticular hydrocarbons (colony odor) to discriminate colony members (nestmates) from foreign workers (non-nestmates). For colony recognition, it is assumed that multi-component colony odors are compared to a neuronal template, located in a so far unidentified part of the nervous system, where a mismatch results in aggression. Alternatively, a sensory filter in the periphery of the nervous system has been suggested to act as a template, causing specific anosmia to nestmate colony odor due to sensory adaptation and effectively blocking perception of nestmates. Colony odors are not stable, but change over time due to environmental influences. To adjust for this, the recognition system has to be constantly updated (template reformation). In this thesis, I provide evidence that template reformation can be induced artificially, by modifying the sensory experience of carpenter ants (Camponotus floridanus; Chapter 1). The results of the experiments showed that template reformation is a relatively slow process taking several hours and this contradicts the adaptation-based sensory filter hypothesis. This finding is supported by first in-vivo measurements describing the neuronal processes underlying template reformation (Chapter 5). Neurophysiological measurements were impeded at the beginning of this study by the lack of adequate technical means to present colony odors. In a behavioral assay, I showed that tactile interaction is not necessary for colony recognition, although colony odors are of very low volatility (Chapter 2). I developed a novel stimulation technique (dummy-delivered stimulation) and tested its suitability for neurophysiological experiments (Chapter 3). My experiments showed that dummy-delivered stimulation is especially advantageous for presentation of low-volatile odors. Colony odor concentration in headspace was further increased by moderately heating the dummies, and this allowed me to measure neuronal correlates of colony odors in the peripheral and the central nervous system using electroantennography and calcium imaging, respectively (Chapter 4). Nestmate and non-nestmate colony odor elicited strong neuronal responses in olfactory receptor neurons of the antenna and in the functional units of the first olfactory neuropile of the ant brain, the glomeruli of the antennal lobe (AL). My results show that ants are not anosmic to nestmate colony odor and this clearly invalidates the previously suggested sensory filter hypothesis. Advanced two-photon microscopy allowed me to investigate the neuronal representation of colony odors in different neuroanatomical compartments of the AL (Chapter 5). Although neuronal activity was distributed inhomogeneously, I did not find exclusive representation restricted to a single AL compartment. This result indicates that information about colony odors is processed in parallel, using the computational power of the whole AL network. In the AL, the patterns of glomerular activity (spatial activity patterns) were variable, even in response to repeated stimulation with the same colony odor (Chapter 4&5). This finding is surprising, as earlier studies indicated that spatial activity patterns in the AL reflect how an odor is perceived by an animal (odor quality). Under natural conditions, multi-component odors constitute varying and fluctuating stimuli, and most probably animals are generally faced with the problem that these elicit variable neuronal responses. Two-photon microscopy revealed that variability was higher in response to nestmate than to non-nestmate colony odor (Chapter 5), possibly reflecting plasticity of the AL network, which allows template reformation. Due to their high variability, spatial activity patterns in response to different colony odors were not sufficiently distinct to allow attribution of odor qualities like ‘friend’ or ‘foe’. This finding challenges our current notion of how odor quality of complex, multi-component odors is coded. Additional neuronal parameters, e.g. precise timing of neuronal activity, are most likely necessary to allow discrimination. The lower variability of activity patterns elicited by non-nestmate compared to nestmate colony odor might facilitate recognition of non-nestmates at the next level of the olfactory pathway. My research efforts made the colony recognition system accessible for direct neurophysiological investigations. My results show that ants can perceive their own nestmates. The neuronal representation of colony odors is distributed across AL compartments, indicating parallel processing. Surprisingly, the spatial activity patterns in response to colony are highly variable, raising the question how odor quality is coded in this system. The experimental advance presented in this thesis will be useful to gain further insights into how social insects discriminate friends and foes. Furthermore, my work will be beneficial for the research field of insect olfaction as colony recognition in social insects is an excellent model system to study the coding of odor quality and long-term memory mechanisms underlying recognition of complex, multi-component odors.
Development of novel Listeria monocytogenes strains as therapeutic agents for targeted tumor therapy
(2010)
Despite marked progress in development and improvement of cancer therapies the rate of cancer related death remained stable over the last years. Especially in treating metastases alternative approaches supporting current therapies are required. Bacterial and viral vectors have been advanced from crude tools into highly sophisticated therapeutic agents detecting and treating neoplastic leasions. They might be potent enough to fill in this therapeutic demand. In this thesis Listeria monocytogenes was investigated as carrier for targeted bacterial cancer therapy. One part of the study focussed on modification of a functional bacterial mRNA delivery system. Genomic integration of T7 RNA polymerase driving mRNA production allowed reduction to an one-plasmid-system and thereby partially relieved the growth retardation exerted by mRNA delivery. Importantly the integration allowed metabolic attenuation of the mRNA delivery mutant potentially enabling in vivo applications. Further expansion of the bacterial RNA delivery system for transfer of shRNAs was examined. Bacterial mutants producing high amounts of RNA containing shRNA sequences were constructed, however a functional proof of gene silencing on delivery in eukaryotic cell lines was not achieved. The second part of this thesis focussed on increasing tumor colonization by Listeria monocytogenes in vivo. Coating bacteria with antibodies against receptors overexpressed on distinct tumor cell lines enabled specific bacterial internalization into these cells in vitro. Optimization of the bacterial antibody coating process resulted in an up to 104-fold increase of intracellular bacteria. Combination of this antibody-mediated targeting with the delivery of prodrug-converting enzymes showed a cytotoxic effect in cell lines treated with the corresponding prodrug. Since incubation in murine serum completely abrogated antibodymediated bacterial internalization the antibodies were covalently linked to the bacteria for application in xenografted tumor mice. Bacteria coated and crosslinked in this manner showed enhanced tumor targeting in a murine tumor model demonstrating antibodymediated bacterial tumor targeting in vivo. Independent of antibody-mediated tumor targeting the intrinsic tumor colonization of different Listeria monocytogenes mutants was examined. Listeria monocytogenes ΔaroA ΔinlGHE colonized murine melanoma xenografts highly efficient, reaching up to 108 CFU per gram of tumor mass 7 days post infection. Taken together the presented data shows highly promising aspects for potential bacterial application in future tumor therapies. Combination of the delivery systems with antibodymediated- and intrinsic bacterial tumor targeting might open novel dimensions utilizing Listeria monocytogenes as therapeutic vector in targeted tumor therapy.
Vaccinia virus plays an important role in human medicine and molecular biology ever since the 18th century after E. Jenner discovered its value as a vaccination virus against smallpox. After the successful eradication of smallpox, vaccinia virus, apart from its use as a vaccine carrier, is today mainly used as a viral vector in molecular biology and increasingly in cancer therapy. The capability to specifically target and destroy cancer cells makes it a perfect agent for oncolytic virotherapy. Furthermore, the virus can easily be modified by inserting genes encoding therapeutic or diagnostic proteins to be expressed within the tumor. The emphasis in this study was the diagnosis of tumors using different vaccinia virus strains. Viruses with metal-accumulating capabilities for tumor detection via MRI technology were generated and tested for their usefulness in cell culture and in vivo. The virus strains GLV-1h131, GLV-1h132, and GLV-1h133 carry the gene encoding the two subunits of the iron storage protein ferritin under the control of three different promoters. GLV-1h110, GLV-1h111, and GLV-1h112 encode the bacterial iron storage protein bacterioferritin, whereas GLV-1h113 encodes the codon-optimized version of bacterioferritin for more efficient expression in human cells. GLV-1h22 contains the transferrin receptor gene, which plays an important role in iron uptake, and GLV-1h114 and GLV-1h115 contain the murine transferrin receptor gene. For possibly better iron uptake the virus strains GLV-1h154, GLV-1h155, GLV-1h156, and GLV-1h157 were generated, each with a version of a ferritin gene and a transferrin receptor gene. GLV-1h154 carries the genes that encode bacterioferritin and human transferrin receptor, GLV-1h155 the human ferritin H-chain gene and the human transferrin receptor gene. GLV-1h156 and GLV-1h157 infected cells both express the mouse transferrin receptor and bacterioferritin or human ferritin H-chain, respectively. The virus strains GLV-1h186 and GLV-1h187 were generated to contain a mutated form of the ferritin light chain, which was shown to result in iron overload and the wildtype light chain gene, respectively. The gene encoding the Divalent Metal Transporter 1, which is a major protein in the uptake of iron, was inserted in the virus strain GLV-1h102. The virus strain GLV-1h184 contains the magA gene of the magnetotactic bacterium Magnetospirillum magnetotacticum, which produces magnetic nanoparticles for orientation in the earth’s magnetic field. Initially the infection and replication capability of all the virus strains were analyzed and compared to that of the parental virus strain GLV-1h68, revealing that all the viruses were able to infect cells of the human cancer cell lines A549 and GI-101A. All constructs exhibited a course of infection comparable to that of GLV-1h68. Next, to investigate the expression of the foreign proteins in GI-101A and A549 cells with protein analytical methods, SDS-gelelectrophoresis, Western blots and ELISAs were performed. The proteins, which were expressed under the control of the strong promoters, could be detected using these methods. To be able to successfully detect the protein expression of MagA and DMT1, which were expressed under the control of the weak promoter, the more sensitive method RT-PCR was used to at least confirm the transcription of the inserted genes. The determination of the iron content in infected GI-101A and A549 cells showed that infection with all used virus strains led to iron accumulation in comparison to uninfected cells, even infection with the parental virus strain GLV-1h68. The synthetic phytochelatin EC20 was also shown to enhance the accumulation of different heavy metals in bacterial cultures. In vivo experiments with A549 tumor-bearing athymic nude mice revealed that 24 days post infection virus particles were found mainly in the tumor. The virus-mediated expression of recombinant proteins in the tumors was detected successfully by Western blot. Iron accumulation in tumor lysates was investigated by using the ferrozine assay and led to the result that GLV-1h68-infected tumors had the highest iron content. Histological stainings confirmed the finding that iron accumulation was not a direct result of the insertion of genes encoding iron-accumulating proteins in the virus genome. Furthermore virus-injected tumorous mice were analyzed using MRI technology. Two different measurements were performed, the first scan being done with a seven Tesla small animal scanner seven days post infection whereas the second scan was performed using a three Tesla human scanner 21 days after virus injection. Tumors of mice injected with the virus strains GLV-1h113 and GLV-1h184 were shown to exhibit shortened T2 and T2* relaxation times, which indicates enhanced iron accumulation. In conclusion, the experiments in this study suggest that the bacterioferritin-encoding virus strain GLV-1h113 and the magA-encoding virus strain GLV-1h184 are promising candidates to be used for cancer imaging after further analyzation and optimization.
Mapping Bushfire Distribution and Burn Severity in West Africa Using Remote Sensing Observations
(2010)
Fire has long been considered to be the main ecological factor explaining the origin and maintenance of West African savannas. It has a very high occurrence in these savannas due to high human pressure caused by strong demographic growth and, concomitantly, is used to transform natural savannas into farmland and is also used as a provider of energy. This study was carried out with the support of the BIOTA project funded by the German ministry for Research and Education. The objective of this study is to establish the spatial and temporal distribution of bushfires during a long observation period from 2000 to 2009 as well as to assess fire impact on vegetation through mapping of the burn severity; based on remote sensing and field data collections. Remote sensing was used for this study because of the advantages that it offers in collecting data for long time periods and on different scales. In this case, the Moderate Resolution Imaging Spectroradiometer (MODIS) satellite instrument at 1km resolution is used to assess active fires, and understand the seasonality of fire, its occurrence and its frequency within the vegetation types on a regional scale. Landsat ETM+ imagery at 30 m and field data collections were used to define the characteristics of burn severity related to the biomass loss on a local scale. At a regional scale, the occurrence of fires and rainfall per month correlated very well (R2 = 0.951, r = -0.878, P < 0.01), which shows that the lower the amount of rainfall, the higher the fire occurrence and vice versa. In the dry season, four fire seasons were determined on a regional scale, namely very early fires, which announce the beginning of the fires, early and late fires making up the peak of fire in December/January and very late fires showing the end of the fire season and the beginning of the rainy season. Considerable fire activity was shown to take place in the vegetation zones between the Forest and the Sahel areas. Within these zones, parts of the Sudano-Guinean and the Guinean zones showed a high pixel frequency, i.e. fires occurred in the same place in many years. This high pixel frequency was also found in most protected areas in these zones. As to the kinds of land cover affected by fire, the highest fire occurrence is observed within the Deciduous woodlands and Deciduous shrublands. Concerning the burn severity, which was observed at a local scale, field data correlated closely with the ΔNBR derived from Landsat scenes of Pendjari National Park (R2 = 0.76). The correlation coefficient according to Pearson is r = 0.84 and according to Spearman-Rho, the correlation coefficient is r = 0.86. Very low and low burn severity (with ΔNBR value from 0 to 0.40) affected the vegetation weakly (0-35 percent of biomass loss) whereas moderate and high burn severity greatly affected the vegetation, leading to up to 100 percent of biomass loss, with the ΔNBR value ranging from 0.41 to 0.99. It can be seen from these results that remotely sensed images offer a tool to determine the fire distribution over large regions in savannas and that the Normalised Burn Ratio index can be applied to West Africa savannas. The outcomes of this thesis will hopefully contribute to understanding and, eventually, improving fire regimes in West Africa and their response to climate change and changes in vegetation diversity.
Memory is dynamic: shortly after acquisition it is susceptible to amnesic treatments, gets gradually consolidated, and becomes resistant to retrograde amnesia (McGaugh, 2000). Associative olfactory memory of the fruit fly Drosophila melanogaster also shows these features. After a single associative training where an odor is paired with electric shock (Quinn et al., 1974; Tully and Quinn, 1985), flies form an aversive odor memory that lasts for several hours, consisting of qualitatively different components. These components can be dissociated by mutations, their underlying neuronal circuitry and susceptibility to amnesic treatments (Dubnau and Tully, 1998; Isabel et al., 2004; Keene and Waddell, 2007; Masek and Heisenberg, 2008; Xia and Tully, 2007). A component that is susceptible to an amnesic treatment, i.e. anesthesia-sensitive memory (ASM), dominates early memory, but decays rapidly (Margulies et al., 2005; Quinn and Dudai, 1976). A consolidated anesthesia-resistant memory component (ARM) is built gradually within the following hours and lasts significantly longer (Margulies et al., 2005; Quinn and Dudai, 1976). I showed here that the establishment of ARM requires less intensity of shock reinforcement than ASM. ARM and ASM rely on different molecular and/or neuronal processes: ARM is selectively impaired in the radish mutant, whereas for example the amnesiac and rutabaga genes are specifically required for ASM (Dudai et al., 1988; Folkers et al., 1993; Isabel et al., 2004; Quinn and Dudai, 1976; Schwaerzel et al., 2007; Tully et al., 1994). The latter comprise the cAMP signaling pathway in the fly, with the PKA being its supposed major target (Levin et al., 1992). Here I showed that a synapsin null-mutant encoding the evolutionary conserved phosphoprotein Synapsin is selectively impaired in the labile ASM. Further experiments suggested Synapsin as a potential downstream effector of the cAMP/PKA cascade. Similar to my results, Synapsin plays a role for different learning tasks in vertebrates (Gitler et al., 2004; Silva et al., 1996). Also in Aplysia, PKA-dependent phosphorylation of Synapsin has been proposed to be involved in regulation of neurotransmitter release and short-term plasticity (Angers et al., 2002; Fiumara et al., 2004). Synapsin is associated with a reserve pool of vesicles at the presynapse and is required to maintain vesicle release specifically under sustained high frequency nerve stimulation (Akbergenova and Bykhovskaia, 2007; Li et al., 1995; Pieribone et al., 1995; Sun et al., 2006). In contrast, the requirement of Bruchpilot, which is homologous to the mammalian active zone proteins ELKS/CAST (Wagh et al., 2006), is most pronounced in immediate vesicle release (Kittel et al., 2006). Under repeated stimulation of a bruchpilot mutant motor neuron, immediate vesicle release is severely impaired whereas the following steady-state release is still possible (Kittel et al., 2006). In line with that, knockdown of the Bruchpilot protein causes impairment in clustering of Ca2+ channels to the active zones and a lack of electron-dense projections at presynaptic terminals (T-bars). Thus, less synaptic vesicles of the readily-releasable pool are accumulated to the release sites and their release probability is severely impaired (Kittel et al., 2006; Wagh et al., 2006). First, I showed that Bruchpilot is required for aversive olfactory memory and localized the requirement of Bruchpilot to the Kenyon cells of the mushroom body, the second-order olfactory interneurons in Drosophila. Furthermore, I demonstrated that Bruchpilot selectively functions for the consolidated anesthesia-resistant memory. Since Synapsin is specifically required for the labile anesthesia sensitive memory, different synaptic proteins can dissociate consolidated and labile components of olfactory memory and two different modes of neurotransmission (high- vs. low frequency dependent) might differentiate ASM and ARM.
Leaf-cutting ants have a highly developed thermal sense which the insects use to regulate the own body temperature and also to optimize brood and fungus development. Apart from the already described temperature guided behaviors inside the nest it is unknown to what extent the ants may use their thermal sense outside the nest. As part of the present thesis, the question was addressed whether leaf-cutting ants (Atta vollenweideri) are able to learn the position of a warm object as landmark for orientation during foraging. Using absolute conditioning, it was shown that ten training trials are sufficient to elicit the association be-tween food reward and the temperature stimulus. In the test situation (without reward) a significantly higher amount of ants preferred the heated site compared to the unheated con-trol. Importantly, thermal radiation alone was sufficient to establish the learned association and served as orientation cue during the test situation (chapter IV). Based on the experi-mental design used in the previous chapter, the localization of thermosensitive neurons, which detect the underlying thermal stimuli, is restricted to the head or the antennae of the ants. The antennal sensillum coeloconicum is a potential candidate to detect the thermal stimuli during the orientation behavior. In chapter V the sensillum coeloconicum of Atta vollenweideri was investigated concerning its gross morphology, fine-structure and the phy-siology of the associated thermosensitive neuron. The sensillum is predominantly located on the apical antennal segment (antennal tip) where around 12 sensilla are clustered, and it has a peg-in-pit morphology with a double walled, multiporous peg. The sensory peg is deeply embedded in a cuticular pit, connected to the environment only by a tiny aperture. The sen-sillum houses three receptor neurons of which one is thermosensitive whereas the sensory modality of the other two neurons remains to be shown. Upon stimulation with a drop in temperature, the thermosensitve neuron responds with a phasic-tonic increase in neuronal activity (cold-sensitive neuron) and shows rapid adaptation to prolonged stimulation. In ad-dition, it is shown that thermal radiation is an effective stimulus for the thermosensitive neuron. This is the first evidence that sensilla coeloconica play an important role during the thermal orientation behavior described in chapter IV. During the test situation of the classic-al conditioning paradigm, the ants showed rapid antennal movements, indicating that they scan their environment in order to detect the heated object. Rapid antennal movements will result in rapid discontinuities of thermal radiation that re-quire thermosensitive neurons with outstanding sensitivity and high temporal resolution. In Chapter VI the question was addressed whether the thermosensitive neuron of the sensilla coeloconica fulfils these preconditions. Extracellular recordings revealed that the neuron is extremely sensitive to temperature transients and that, due to the response dynamics, an estimated stimulus frequency of up to 5 Hz can be resolved by the neuron. Already a tem-perature increase of only 0.005 °C leads to a pronounced response of the thermosensitive neuron. Through sensory adaptation, the sensitivity to temperature transients is maintained over a wide range of ambient temperatures. The discovered extreme sensitivity, the high temporal resolution and the pronounced adaptation abilities are further evidence support-ing the idea that sensilla coeloconica receive information of the thermal environment, which the ants may use for orientation. In order to understand how the ants use their thermal environment for orientation, it is ne-cessary to know where and how thermal information is processed in their central nervous system. In Chapter VII the question is addressed where in the brain the thermal information, specifically received by the thermosensitive neuron of sensilla coeloconica, is represented. By selectively staining single sensilla coeloconica, the axons of the receptor neurons could be tracked into the antennal lobe of Atta vollenweideri workers. Each of the three axons termi-nated in a single functional unit (glomerulus) of the antennal lobe. Two of the innervated glomeruli were adjacent to each other and are located lateral, while the third one was clear-ly separate and located medial in the antennal lobe. Using two-photon Ca2+ imaging of an-tennal lobe projection neurons, the general representation of thermal information in the antennal lobe was studied. In 11 investigated antennal lobes up to six different glomeruli responded to temperature stimulation in a single specimen. Both, warm- and cold-sensitive glomeruli could be identified. All thermosensitive glomeruli were located in the medial half of the antennal lobe. Based on the correlative evidence of the general representation of thermal information and the results from the single sensilla stainings, it is assumed that thermal information received by sensilla coeloconica is processed in the medial of the three target glomeruli. This part of the thesis shows the important role of the antennal lobe in temperature processing and links one specific thermosensitive neuron to its target region (a single glomerulus). In chapter V it was shown that the sensilla coeloconica are clustered at the antennal tip and have an extraordinary peg-in-pit morphology. In the last chapter of this thesis (Chapter VIII) the question is addressed whether the morphology of the sensilla coeloconica predicts the receptive field of the thermosensitive neuron during the detection of thermal radiation. The sensory pegs of all sensilla coeloconica in the apical cluster have a similar orientation, which was not constraint by the shape of the antennal tip where the cluster is located. This finding indicates that the sensilla coeloconica function as a single unit. Finally the hypothesis was tested whether a single sensillum could be direction sensitive to thermal radiation based on its eye-catching morphology. By stimulating the thermosensitive neuron from various angles around the sensillum this indeed could be shown. This is the last and most significant evi-dence that the sensilla coeloconica may be adapted to detect spatially distributed heated objects in the environment during the thermal landmark orientation of ants.
Foraging behavior is a particularly fascinating topic within the studies of social insects. Decisions made by individuals have effects not only on the individual level, but on the colony level as well. Social information available through foraging in a group modulates individual preferences and shapes the foraging pattern of a colony. Identifying parameters influencing foraging behavior in leaf-cutting ants is especially intriguing because they do not harvest for themselves, but for their symbiotic fungus which in turn influences their plant preferences after the incorporation of the substrate. To learn about the substrates’ unsuitability for the fungus, ants need to be able to identify the incorporated substrate and associate it with detrimental effects on the fungus. Odor is an important plant characteristic known to be used as recognition key outside the nest in the context of foraging. Chapter 1 shows that foragers are able to recall information about the unsuitability of a substrate through odor alone and consequently reject the substrate, which leads to the conclusion that inside the nest, odor might be enough to indentify incorporated substrate. Identification of plant species is a key factor in the foraging success of leaf-cutting ants as they harvest a multitude of different plant species in a diverse environment and host plant availability and suitability changes throughout the year. Fixed plant preferences of individuals through innate tendencies are therefore only one factor influencing foraging decisions. On the individual as well as the colony level, foraging patterns are flexible and a result of an intricate interplay between the different members involved in the harvesting process: foragers, gardeners and the symbiotic fungus. In chapter 2 I identified several conditions necessary for naïve foragers to learn about the unsuitability of substrate inside the nest. In order to exchange of information about the unsuitability of a substrate, the plant in question must be present in the fungus garden. Foragers can learn without own foraging experience and even without experiencing the effects of the substrate on the fungus, solely through the presence of experienced gardeners. The presence of experienced foragers alone on the other hand is not enough to lower the acceptance of substrate by naïve foragers in the presence of naïve gardeners, even if experienced foragers make up the majority of the workforce inside the nest. Experienced foragers are also able to reverse their previous negative experience and start accepting the substrate again. The individual behavior of foragers and gardeners with different experiential backgrounds in the presence of suitable or unsuitable substrate inside the fungus chamber was investigated in chapter 3 to shed some light on possible mechanisms involved in the flow of information about substrate suitability from the fungus to the ants. Gardeners as well as foragers are involved in the leaf processing and treatment of the applied leaf patches on the fungus. If the plant material is unsuitable, significantly more ants treat the plant patches, but foragers are less active overall. Contacts between workers initiated by either gardeners or foragers occur significantly more frequent and last longer if the substrate is unsuitable. Even though experienced gardeners increase naïve foragers’ contact rates and duration with other workers in the presence of suitable plant patches, naïve foragers show no differences in the handling of the plant patches. This suggests that foragers gain information about plant suitability not only indirectly through the gardening workers, but might also be able to directly evaluate the effects of the substrate on the fungus themselves. Outside the nest, foragers influence each other the trail (chapter 4). Foraging in a group and the presence of social information is a decisive factor in the substrate choice of the individual and leads to a distinct and consentaneous colony response when encountering unfamiliar or unsuitable substrates. As leaf-cutting ants harvest different plant species simultaneously on several trails, foragers gain individual experiences concerning potential host plants. Preferences might vary among individuals of the same colony to the degree that foragers on the same trail perceive a certain substrate as either suitable or unsuitable. If the majority of foragers on the trail perceives one of the currently harvested substrates as unsuitable, naïve foragers lower their acceptance within 4 hours. In the absence of a cue in the fungus, naïve foragers harvesting by themselves still eventually (within 6 hours) reject the substrate as they encounter experienced gardeners during visits to the nest within foraging bouts. As foraging trails can be up to 100 m long and foragers spend a considerable amount of time away from the nest, learning indirectly from experienced foragers on the trail accelerates the distribution of information about substrate suitability. The level of rejection of a formerly unsuitable substrate after eight hours of foraging by naïve foragers correlates with the average percentage of unladen experienced foragers active on the trail. This suggests that unladen experienced foragers might actively contact laden naïve workers transmitting information about the unsuitability of the load they carry. Results from experiments were I observed individual laden foragers on their way back to the nest backed up this assumption as individuals were antennated and received bites into the leaf disk they carried. Individuals were contacted significantly more often by nestmates that perceived the carried leaf disk as unsuitable due to previous experience than by nestmates without this experience (chapter 6). Leaf-cutting ants constantly evaluate, learn and re-evaluate the suitability of harvested substrate and adjust their foraging activity accordingly. The importance of the different sources of information within the colony and their effect on the foraging pattern of the colony depend on the presence or absence of each of them as e.g. experienced foragers have a bigger influence on the plant preferences of naïve foragers in the absence of a cue in the fungus garden.
Applying microarray‐based techniques to study gene expression patterns: a bio‐computational approach
(2010)
The regulation and maintenance of iron homeostasis is critical to human health. As a constituent of hemoglobin, iron is essential for oxygen transport and significant iron deficiency leads to anemia. Eukaryotic cells require iron for survival and proliferation. Iron is part of hemoproteins, iron-sulfur (Fe-S) proteins, and other proteins with functional groups that require iron as a cofactor. At the cellular level, iron uptake, utilization, storage, and export are regulated at different molecular levels (transcriptional, mRNA stability, translational, and posttranslational). Iron regulatory proteins (IRPs) 1 and 2 post-transcriptionally control mammalian iron homeostasis by binding to iron-responsive elements (IREs), conserved RNA stem-loop structures located in the 5’- or 3‘- untranslated regions of genes involved in iron metabolism (e.g. FTH1, FTL, and TFRC). To identify novel IRE-containing mRNAs, we integrated biochemical, biocomputational, and microarray-based experimental approaches. Gene expression studies greatly contribute to our understanding of complex relationships in gene regulatory networks. However, the complexity of array design, production and manipulations are limiting factors, affecting data quality. The use of customized DNA microarrays improves overall data quality in many situations, however, only if for these specifically designed microarrays analysis tools are available. Methods In this project response to the iron treatment was examined under different conditions using bioinformatical methods. This would improve our understanding of an iron regulatory network. For these purposes we used microarray gene expression data. To identify novel IRE-containing mRNAs biochemical, biocomputational, and microarray-based experimental approaches were integrated. IRP/IRE messenger ribonucleoproteins were immunoselected and their mRNA composition was analysed using an IronChip microarray enriched for genes predicted computationally to contain IRE-like motifs. Analysis of IronChip microarray data requires specialized tool which can use all advantages of a customized microarray platform. Novel decision-tree based algorithm was implemented using Perl in IronChip Evaluation Package (ICEP). Results IRE-like motifs were identified from genomic nucleic acid databases by an algorithm combining primary nucleic acid sequence and RNA structural criteria. Depending on the choice of constraining criteria, such computational screens tend to generate a large number of false positives. To refine the search and reduce the number of false positive hits, additional constraints were introduced. The refined screen yielded 15 IRE-like motifs. A second approach made use of a reported list of 230 IRE-like sequences obtained from screening UTR databases. We selected 6 out of these 230 entries based on the ability of the lower IRE stem to form at least 6 out of 7 bp. Corresponding ESTs were spotted onto the human or mouse versions of the IronChip and the results were analysed using ICEP. Our data show that the immunoselection/microarray strategy is a feasible approach for screening bioinformatically predicted IRE genes and the detection of novel IRE-containing mRNAs. In addition, we identified a novel IRE-containing gene CDC14A (Sanchez M, et al. 2006). The IronChip Evaluation Package (ICEP) is a collection of Perl utilities and an easy to use data evaluation pipeline for the analysis of microarray data with a focus on data quality of custom-designed microarrays. The package has been developed for the statistical and bioinformatical analysis of the custom cDNA microarray IronChip, but can be easily adapted for other cDNA or oligonucleotide-based designed microarray platforms. ICEP uses decision tree-based algorithms to assign quality flags and performs robust analysis based on chip design properties regarding multiple repetitions, ratio cut-off, background and negative controls (Vainshtein Y, et al., 2010).
Fish of the genus Xiphophorus belong to the oldest animal models in cancer research. The oncogene responsible for the generation of spontaneous aggressive melanoma encodes for a mutated epidermal growth factor receptor (Egfr) and is called xmrk for Xiphophorus melanoma receptor kinase. Xmrk constitutive activation mechanisms and subsequent signaling pathways have already been investigated and charaterized but it is still unknown if Egfr ligands may also play a role in Xmrk-driven melanoma formation. To investigate the potential role of Egfr ligands in Xmrk-driven melanoma, I firstly analyzed the evolution of teleost and tetrapod Egfr/Egfr ligand systems. I especially focused on the analysis on the medaka fish, a closely related species to Xiphophorus, for which the whole genome has been sequenced. I could identify all seven Egfr ligands in medaka and could show that the two teleost-specific Egfr copies of medaka display dissimilar expression patterns in adult tissues together with differential expression of Egfr ligand subsets, arguing for subfunctionalization of receptor functions in this fish. Our phylogenetic and synteny analyses supported the hypothesis that only one gene in the chordate ancestor gave rise to the diversity of Egfr ligands found in vertebrate genomes today. I also could show that the Egfr extracellular subdomains implicated in ligand binding are not evolutionary conserved between tetrapods and teleosts, making the use of heterologous ligands in experiments with fish cells debatable. Despite its well understood and straight-forward process, Xmrk-driven melanomagenesis in Xiphophorus is problematic to further investigate in vivo. Our laboratory recently established a new melanoma animal model by generating transgenic mitf::xmrk medaka fishes, a Xiphophorus closely related species offering many more advantages. These fishes express xmrk under the control of the pigment-cell specific Mitf promoter. During my PhD thesis, I participated in the molecular analysis of the stably transgenic medaka and could show that the Xmrk-induced signaling pathways are similar when comparing Xiphophorus with transgenic mitf::xmrk medaka. These data together with additional RNA expression, protein, and histology analyses showed that Xmrk expression under the control of a pigment cell-specific promoter is sufficient to induce melanoma in the transgenic medaka, which develop very stereotyped tumors, including uveal and extracutaneous melanoma, with early onset during larval stages. To further investigate the potential role of Egfr ligands in Xmrk-driven melanoma, I made use of two model systems. One of them was the above mentioned mitf::xmrk medaka, the other was an in-vitro cell culture system, where the EGF-inducible Xmrk chimera HERmrk is stably expressed in murine melanocytes. Here I could show that HERmrk activation strongly induced expression of amphiregulin (Areg) and heparin-binding EGF-like growth factor (Hbegf) in melanocytes. This regulation was dependent on the MAPK and SRC signaling pathways. Moreover, upregulation of Adam10 and Adam17, the two major sheddases of Egfr ligands, was observed. I also could demonstrate the functionality of the growth factors by invitro analyses. Using the mitf::xmrk medaka model I could also show the upregulation of a subset of ligand genes, namely egf, areg, betacellulin (btc) and epigen (epgn) as well as upregulation of medaka egfrb in tumors from fish with metastatic melanoma. All these results converge to support an Xmrk-induced autocrine Egfr ligand loop. Interestingly, my in-vitro experiments with conditioned supernatant from medaka Egf- and Hbegf-producing cells revealed that not only Xiphophorus Egfrb, but also the pre-activated Xmrk could be further stimulated by the ligands. Altogether, I could show with in-vitro and in-vivo experiments that Xmrk is capable of inducing a functional autocrine Egfr ligand loop. These data confirm the importance of autocrine loops in receptor tyrosine kinase (RTK)-dependent cancer development and show the possibility for a constitutively active RTK to strengthen its oncogenic signaling by ligand binding.
In our analysis I was interested in the gene duplications, with focus on in-paralogs. In-paralogs are gene duplicates which arose after species split. Here I analysed the in-paralogs quantitatively, as well as qualitatively. For quantitative analysis genomes of 21 species were taken. Most of them have vastly different lifestyles with maximum evolutionary distance between them 1100 million years. Species included mammals, fish, insects and worm, plus some other chordates. All the species were pairwised analysed by the Inparanoid software, and in-paralogs matrix were built representing number of in-paralogs in all vs. all manner. Based on the in-paralogs matrix I tried to reconstruct the evolutionary tree using in-paralog numbers as evolutionary distance. If all 21 species were used the resulting tree was very far from real one: a lot of species were misplaced. However if the number was reduced to 12, all of the species were placed correctly with only difference being wrong insect and fish clusters switched. Then to in-paralogs matrix the neighbour-net algorithm was applied. The resulting "net" tree showed the species with fast or slow duplications rates compared to the others. We could identify species with very high or very low duplications frequencies and it correlates with known occurrences of the whole genome duplications. As the next step I built the graphs for every single species showing the correlation between their in-paralogs number and evolutionary distance. As we have 21 species, graph for every species is built using 20 points. Coordinates of the points are set using the evolutionary distance to that particular species and in-paralogs number. In mammals with increasing the distance from speciation the in-paralogs number also increased, however not in linear fashion. In fish and insects the graph close to zero is just the same in mammals' case. However, after reaching the evolutionary distances more than 800 million years the number of inparalogs is beginning to decrease. We also made a simulation of gene duplications for all 21 species and all the splits according to the fossil and molecular clock data from literature. In our simulation duplication frequency was minimal closer to the past and maximum in the near-present time. Resulting curves had the same shape the experimental data ones. In case of fish and insect for simulation the duplication rate coefficient even had to be set negative in order to repeat experimental curve shape. To the duplication rate coefficient in our simulation contribute 2 criteria: gene duplications and gene losses. As gene duplication is stochastical process it should always be a constant. So the changing in the coefficient should be solely explained by the increasing gene loss of old genes. The processes are explained by the evolution model with high gene duplication and loss ratio. The drop in number of in-paralogs is probably due to the BLAST algorithm. It is observed in comparing highly divergent species and BLAST cannot find the orthologs so precisely anymore. In the second part of my work I concentrated more on the specific function of inparalogs. Because such analysis is time-consuming it could be done on the limited number species. Here I used three insects: Drosophila melanogaster (fruit y), Anopheles gambiae (mosquito) and Apis mellifera (honeybee). After Inparnoid analyses and I listed the cluster of orthologs. Functional analyses of all listed genes were done using GO annotations and also KEGG PATHWAY database. We found, that the gene duplication pattern is unique for each species and that this uniqueness is rejected through the differences in functional classes of duplicated genes. The preferences for some classes reject the evolutionary trends of the last 350 million years and allow assumptions on the role of those genes duplications in the lifestyle of species. Furthermore, the observed gene duplications allowed me to find connections between genomic changes and their phenotypic manifestations. For example I found duplications within carbohydrate metabolism rejecting feed pattern adaptation, within photo- and olfactory-receptors indicating sensing adaptation and within troponin indicating adaptations in the development. Despite these species specific differences, found high correlations between the independently duplicated genes between the species. This might hint for a "pool" of genes preferentially duplicated. Taken together, the observed duplication patterns reject the adaptational process and provide us another link to the field of genomic zoology.
Precise control of mitotic progression is vital for the maintenance of genomic integrity. Since the loss of genomic integrity is known to promote tumorigenesis, the identification of knew G2/M regulatory genes attracts great attention. LINC, a human multiprotein complex, is a transcriptional activator of a set of G2/M specific genes. By depleting LIN9 in MEFs, a core subunit of LINC, Gas2l3 was identified as a novel LINC target gene. The so far uncharacterized Gas2l3 gene encodes for a member of the family of growth arrest specific 2 (GAS2) proteins, which share a highly conserved putative actin binding CH and a putative microtubule binding GAS2 domain. In the present study GAS2L3 was identified as a LINC target gene also in human cells. Gene expression analysis revealed that GAS2L3 transcription, in contrast to all other GAS2 family members, is highly regulated during the cell cycle with highest expression in G2/M. The GAS2L3 protein showed a specific localization pattern during the M phase: In metaphase, GAS2L3 localized to the mitotic spindle, relocated to the spindle midzone microtubules in late anaphase and concentrated at the midbody in telophase where it persisted until the end of cytokinesis. Overexpression of a set of different GAS2L3 deletion mutants demonstrated that the localization to the mitotic microtubule network is dependent on the C-terminus, whereas the midbody localization is dependent on full length GAS2L3 protein. Additionally, exclusive overexpression of the CH domain induced the formation of actin stress fibers, suggesting that the CH domain is an actin binding domain. In contrast, the GAS2 domain was neither needed nor sufficient for microtubule binding, indicating that there must be an additional so far unknown microtubule binding domain in the C-terminus. Interestingly, immunoblot analysis also identified the C-terminus as the domain responsible for GAS2L3 protein instability, partially dependent on proteasomal degradation. Consistent with its specific localization pattern, GAS2L3 depletion by RNAi demonstrated its responsibility for proper mitosis and cytokinesis. GAS2L3 depletion in HeLa cells resulted in the accumulation of multinucleated cells, an indicator for chromosome mis-segregation during mitosis. Also the amount of cells in cytokinesis was enriched, indicating failures in completing the last step of cytokinesis, the abscission. Strikingly, treatment with microtubule poisons that lead to the activation of the spindle assembly checkpoint (SAC) indicated that the SAC was weakened in GAS2L3 depleted cells. Although the exact molecular mechanism is still unknown, fist experiments support the hypothesis that GAS2L3 might be a regulator of the SAC master kinase BUBR1. In conclusion, this study provides first evidence for GAS2L3 as a novel regulator of mitosis and cytokinesis and it might therefore be an important guardian against tumorigenesis.
Protein phosphatases can be classified into at least three major families based on amino acid sequences at their active sites. A newly emerging phosphatase family contains the active site sequence DXDX(T/V), and belongs to the haloacid dehalogenase (HAD) superfamily of hydrolases, a ubiquitous and evolutionarily conserved enzyme family. Although the existence of 58 human HAD enzymes has been predicted by database analysis, our understanding of their biological functions remains rudimentary.By database mining amd phylogenetic analysis of human HAD phosphatases, we have found a marked increase in cell area of spreading cells, as well as accelerated cell spreading onfibronectin. Taken together, we have identified and characterized AUM as a novel member of the emerging family of aspartate-dependent protein tyrosine phosphatases. Our findings implicate AUM as an important regulator of Src-dependent cytoskeletal dynamics during cell adhesion and migration. a previously unidentified enzyme with homology to Chronophin, a cytoskeletal regulatory HAD phosphatase. We have cloned and characterized this novel enzyme and named it AUM,for actin remodeling, ubiquitously expressed, magnesium-dependent HAD phosphatase. By Northern blot, real-time PCR and Western blot analysis, we show that AUM is broadly expressed in all major human and mouse tissues with highest levels found in testis. Using immunohistochemistry, we can show that AUM is specifically expressed in maturing germ cells and that its expression peaks during spermiogenesis. To characterize the substrate preference of AUM, we have conducted an in vitro phosphatase substrate screen with 720 phosphopeptides derived from human phosphorylation sites. AUM exclusively dephosphorylates phosphotyrosine (pTyr)-containing peptides. Furthermore, only 17 pTyr peptides (~2% of all pTyr peptides investigated) acted as AUM substrates, indicating a high degree of substrate specificity. Putative AUM substrates include proteins involved in cytoskeletal dynamics and tyrosine kinase signaling.In accordance with the phosphopeptide screen, phosphatase overlay assays employing whole-cell extracts of pervanadate-treated HeLa cells show that AUM dephosphorylates only a limited number of tyrosyl-phosphorylated proteins.The role of AUM for cellular signaling was investigated in response to epidermal growth factor (EGF) stimulation in a spermatogonial cell line (GC-1 spg). The overexpression of AUM reduces, whereas the RNAi-mediated depletion of endogenous AUM increases EGF inducedtyrosine phosphorylation, including changes in the phosphorylation of the EGF receptor itself. Interestingly, in vitro kinase/phosphatase assays with purified Src and AUM indicate that AUM can activate Src, which in turn phosphorylates and inactivates AUM. Although it is at present unclear how Src and AUM regulate each other, our initial findings suggests that AUM enhances Src kinase activity independently of its phosphatase activity, whereas Src diminishes AUM phosphatase activity in a kinase dependent manner. On a cellular level, AUM-depleted cells are characterized by altered actin cytoskeletal dynamics and adhesion, as indicated by stabilized actin filaments, enlarged focal adhesions,a marked increase in cell area of spreading cells, as well as accelerated cell spreading on fibronectin. Taken together, we have identified and characterized AUM as a novel member of the emerging family of aspartate-dependent protein tyrosine phosphatases. Our findings implicate AUM as an important regulator of Src-dependent cytoskeletal dynamics during cell adhesion and migration.
Biodiversity may be investigated and explored by the means of genetic sequence information and molecular phylogenetics. Yet, with ribosomal genes, information for phylogenetic studies may not only be retained from the primary sequence, but also from the secondary structure. Software that is able to cope with two dimensional data and designed to answer taxonomic questions has been recently developed and published as a new scientific pipeline. This thesis is concerned with expanding this pipeline by a tool that facialiates the annotation of a ribosomal region, namely the ITS2. We were also able to show that this states a crucial step for secondary structure phylogenetics and for data allocation of the ITS2-database. This resulting freely available tool determines high quality annotations. In a further study, the complete phylogenetic pipeline has been evaluated on a theoretical basis in a comprehensive simulation study. We were able to show that both, the accuracy and the robustness of phylogenetic trees are largely improved by the approach. The second major part of this thesis concentrates on case studies that applied this pipeline to resolve questions in taxonomy and ecology. We were able to determine several independent phylogenies within the green algae that further corroborate the idea that secondary structures improve the obtainable phylogenetic signal, but now from a biological perspective. This approach was applicable in studies on the species and genus level, but due to the conservation of the secondary structure also for investigations on the deeper level of taxonomy. An additional case study with blue butterflies indicates that this approach is not restricted to plants, but may also be used for metazoan phylogenies. The importance of high quality phylogenetic trees is indicated by two ecological studies that have been conducted. By integrating secondary structure phylogenetics, we were able to answer questions about the evolution of ant-plant interactions and of communities of bacteria residing on different plant tissues. Finally, we speculate how phylogenetic methods with RNA may be further enhanced by integration of the third dimension. This has been a speculative idea that was supplemented with a small phylogenetic example, however it shows that the great potential of structural phylogenetics has not been fully exploited yet. Altogether, this thesis comprises aspects of several different biological disciplines, which are evolutionary biology and biodiversity research, community and invasion ecology as well as molecular and structural biology. Further, it is complemented by statistical approaches and development of informatical software. All these different research areas are combined by the means of bioinformatics as the central connective link into one comprehensive thesis.
All animals learn in order to cope with challenges imposed on them by their environment. This is true also for both larval and adult fruit flies as exemplified in pavlovian conditioning. The focus of this Thesis is on various aspects of the fruit flies learning ability. My main project deals with two types of learning which we call punishment-learning and pain-relief learning. Punishment learning happens when fruit flies are exposed to an odour which is followed by electric shock. After such training, flies have learned that that odour signals pain and consequently will avoid it in the future. If the sequence of the two stimuli is reversed such that odour follows shock, flies learn the odour as a signal for relief and will later on approach it. I first report a series of experiments investigating qualitative and parametric features of relief-learning; I find that (i) relief learning does result from true associative conditioning, (ii) it requires a relatively high number of training trials, (iii) context-shock training is ineffective for subsequent shock-odour learning. A further question is whether punishment-learning and pain-relief learning share genetic determinants. In terms of genetics, I test a synapsin mutant strain, which lacks all Synapsin protein, in punishment and relief-learning. Punishment learning is significantly reduced, and relief-learning is abolished. Pan-neuronal RNAi-mediated knock-down of Synapsin results in mutant-like phenotypes, confirming the attribution of the phenotype to lack of Synapsin. Also, a rescue of Synapsin in the mushroom body of syn97 mutants restores both punishment- and relief-learning fully, suggesting the sufficiency of Synapsin in the mushroom body for both these kinds of learning. I also elucidate the relationship between perception and physiology in adult fruit flies. I use odour-shock conditioning experiments to identify degrees of similarity between odours; I find that those similarity measures are consistent across generalization and discrimination tasks of diverse difficulty. Then, as collaborator of T. Völler and A. Fiala, I investigate how such behavioural similarity/dissimilarity is reflected at the physiological level. I combine the behaviour data with calcium imaging data obtained by measuring the activity patterns of those odours in either the sensory neurons or the projection neurons at the antennal lobe. Our interpretation of the results is that the odours perceptual similarity is organized by antennal lobe interneurons. In another project I investigate the effect of gustatory stimuli on reflexive behaviour as well as their role as reinforcer in larval learning. Drosophila larvae greatly alter their behaviour in presence of sodium chloride. Increasing salt concentration modulates choice behaviour from weakly appetitive to strongly aversive. A similar concentration-behaviour function is also found for feeding: larval feeding is slightly enhanced in presence of low salt concentrations, and strongly decreased in the presence of high salt concentrations. Regarding learning, relatively weak salt concentrations function as appetitive reinforcer, whereas high salt concentrations function as aversive reinforcer. Interestingly, the behaviour-concentration curves are shifted towards higher concentrations from reflexive behaviour (choice behaviour, feeding) as compared to associative learning. This dissociation may reflect a different sensitivity in the respective sensory-motor circuitry.
Termites are the most important soil ecosystem engineers of semi‐arid and arid habitats. They enhance decomposition processes as well as the subsequent mineralisation of nutrients by bacteria and fungi. Through their construction of galleries, nests and mounds, they promote soil turnover and influence the distribution of nutrients and also alter texture and hydrological properties of soils, thereby affecting the heterogeneity of their ecosystem. The main aim of the present thesis was to define the impact of termites on ecosys‐tem functioning in a semi‐arid ecosystem. In a baseline study, I assessed the diversity of termite taxa in relation to the amount of precipitation, the vegetation patterns and the land use systems at several sites in Namibia. Subsequently, I focussed on a species that is highly abundant in many African savannas, the fungus growing and mound building species Macro‐termes michaelseni (Sjöstedt, 1914). I asked how this species influences the spatial hetero‐geneity of soil and vegetation patterns. From repeated samplings at 13 sites in Namibia, I obtained 17 termite taxa of 15 genera. While the type of land use seems to have a minor effect on the termite fauna, the mean annual precipitation explained 96% and the Simpson index of vascular plant diversity 81% of the variation in taxa diversity. The number of termite taxa increased with both of these explanation variables. In contrast to former studies on Macrotermes mounds in several regions of Africa that I reviewed, soil analyses from M. michaelseni mounds in the central Namibian savanna revealed that they contain much higher nitrogen contents when compared to their parent material. Further analyses revealed that nitrate forms a major component of the nitrogen content in termite mounds. As nitrate solves easily in water, evaporation processes are most probably responsible for the transport of solved nitrates to the mound surface and their accumulation there. The analysed mounds in central Namibia contained higher sand propor‐tions compared to the mounds of the former studies. Through the higher percentage of coarse and middle sized pores, water moves more easily in sandy soils compared to more clayey soils. In consequence, evaporation‐driven nitrate accumulation can occur in the studied mounds at high rates. Hochgerechnet auf den Gesamtumfang der Hügel bedeckte das pro Jahr von einem bewohnten Hügel erodierte Material theoretisch einen 1 m breiten Kreisring um den Schwemmkegel des Hügels 2,4 mm hoch. Der entsprechende Wert für unbewohnte Hügel betrug 1,0 mm. To assess the amount of soil that erodes from termite mounds, I fastened four strong, 65 cm wide plastic bags at 14 mounds each and collected the soil that eroded during five rainfall events. Projected to the total mound circumference, the amount of soil eroded covers theoretically a 1 m wide circular ring around the pediment of an inhabited mound up to a height of 2.4 mm per year. For uninhabited mounds, the height of this soil layer would be 1.0 mm. Per hectare, roughly 245 kg eroded per year from the mounds. However, as the erosion rate depends on several factors such as rainfall intensity, soil texture and point of time within the rainy season, this is only a vague estimate. In order to determine up to which distance the soil erosion from the mounds still influences the chemical characteristics of the adjacent topsoil, I took samples from depth of 0–10 cm at 1, 5 and 25 m distances, respectively, from four different mounds and from the mounds themselves. The non‐metric multidimensional scaling of the soil properties showed strong differences between mound and off‐mound samples. Soil characteristics within the samples from the mounds did not differ largely. Similarly, I found no strong differences between the samples taken from the different distances from the mound. From these results I conclude that through the construction of foraging galleries and sheetings (soil constructions with which some termite species cover their food items), the soil eroding from termite mounds is quickly mixed with deeper soil layers. In consequence, mound material does not accumulate in the mound’s vicinity. In order to reveal how plant growth is influenced by termite mound material, we assessed the number of grass and herb individuals as well as the biomass of plants growing in situ on the base of mounds compared to adjacent sites. While the numbers of both grass and herb individuals were significantly lower compared to adjacent sites, the total biomass of plants growing on the base of mounds was significantly higher. Reverse results were obtained by pot experiments with radish (Raphanus sativus subsp. sativus) and sorghum (Sorghum sp.) growth. Both species grew significantly weaker on mound soil compared to adjacent soil. The contradictory results concerning the biomass of in situ and pot experi‐ments are most probably caused by the disturbance of the original soil structure during the potting process. The material was subsequently compacted through watering the plants. In contrast, Macrotermes mounds are pervaded by many macropores which seem to be essential for the plant roots to penetrate the soil. In the last part of this thesis, I posed the question how mounds of M. michaelseni are distributed and what factors might be responsible for this pattern. Former studies showed that mound size is correlated with the size of its inhabiting colony. With several multi‐scale analyses, I revealed that larger inhabited mounds were regularly distributed. Additionally, mounds which were closer together tended to be smaller than on average. This indicates that intraspecific competition controls the distribution and size of colonies and their mounds. Former studies concerning Odontotermes mounds substantiated that they are local hotspots of primary productivity and animal abundance. Based on these findings, simulations revealed that a regular distribution of these mounds leads to a greater ecosystem‐wide productivity compared to a random arrangement. As in the present study, plant biomass was higher at the mounds compared to off‐mound sites, this might hold true for M. michaelseni mounds. From the results of this thesis, I draw the conclusion that through their mound building activities, M. michaelseni strongly influences the distribution patterns of soil nutrients within the central Namibian savanna. These termites create sharp contrasts in nutrient levels and vegetation patterns between mound soils and off‐mound soils and enhance the heterogeneity of their habitats. Former studies revealed that habitat hetero‐geneity is important in generating species diversity and species richness in turn is correlated positively with biomass production and positively affects ecosystem services. In conclusion, the present thesis underlines the importance of M. michaelseni for ecosystem functioning of the central Namibian savanna.
Aim of this thesis was to study the contribution of the hosts immune system during tumor regression. A wild-type rejection model was studied in which tumor regression is mediated through an adaptive, T cell host response (Research article 1). Additionally, the relationship between VACV infection and cancer rejection was assessed by applying organism-specific microarray platforms to infected and non-infected xenografts. It could be shown that tumor rejection in this nude mouse model was orchestrated solely by the hosts innate immune system without help of the adaptive immunity. In a third study the inflammatory baseline status of 75 human cancer cell lines was tested in vitro which was correlated with the susceptibility to VACV and Adenovirus 5 (Ad5) replication of the respective cell line (Manuscript for Research article 3). Although xenografts by themselves lack the ability to signal danger and do not provide sufficient proinflammatory signals to induce acute inflammation, the presence of viral replication in the oncolytic xenograft model provides the "tissue-specific trigger" that activates the immune response and in concordance with the hypothesis, the ICR is activated when chronic inflammation is switched into an acute one. Thus, in conditions in which a switch from a chronic to an acute inflammatory process can be induced by other factors like the immune-stimulation induced by the presence of a virus in the target tissue, adaptive immune responses may not be necessary and immune-mediated rejection can occur without the assistance of T or B cells. However, in the regression study using neu expressing MMC in absence of a stimulus such as a virus and infected cancer cells thereafter, adaptive immunity is needed to provoke the switch into an acute inflammation and initiate tissue rejection. Taken together, this work is supportive of the hypothesis that the mechanisms prompting TSD differ among immune pathologies but the effect phase converges and central molecules can be detected over and over every time TSD occurs. It could be shown that in presence of a trigger such as infection with VACV and functional danger signaling pathways of the infected tumor cells, innate immunity is sufficient to orchestrate rejection of manifested tumors.
Neuroanatomical data in fly brain research are mostly available as spatial gene expression patterns of genetically distinct fly strains. The Drosophila standard brain, which was developed in the past to provide a reference coordinate system, can be used to integrate these data. Working with the standard brain requires advanced image processing methods, including visualisation, segmentation and registration. The previously published VIB Protocol addressed the problem of image registration. Unfortunately, its usage was severely limited by the necessity of manually labelling a predefined set of neuropils in the brain images at hand. In this work I present novel tools to facilitate the work with the Drosophila standard brain. These tools are integrated in a well-known open-source image processing framework which can potentially serve as a common platform for image analysis in the neuroanatomical research community: ImageJ. In particular, a hardware-accelerated 3D visualisation framework was developed for ImageJ which extends its limited 3D visualisation capabilities. It is used for the development of a novel semi-automatic segmentation method, which implements automatic surface growing based on user-provided seed points. Template surfaces, incorporated with a modified variant of an active surface model, complement the segmentation. An automatic nonrigid warping algorithm is applied, based on point correspondences established through the extracted surfaces. Finally, I show how the individual steps can be fully automated, and demonstrate its application for the successful registration of fly brain images. The new tools are freely available as ImageJ plugins. I compare the results obtained by the introduced methods with the output of the VIB Protocol and conclude that our methods reduce the required effort five to ten fold. Furthermore, reproducibility and accuracy are enhanced using the proposed tools.
Resin, a sticky sap emitting terpenoids and other volatiles, is produced by various plant species to seal wounds and protect themselves against herbivores and microbes. Among several other insects, bees have evolved the surprising ability to handle the repellent plant sap and use it to construct and defend their nests. Whereas the collection of pollen and nectar has been intensively studied in bees, resin collection has received only little attention. The aim of this dissertation was to better understand how the physiological and chemical properties of resin and resin-derived compounds (terpenes) affect the ecology of stingless bees. I therefore asked why, where and how stingless bees of Borneo (seven study-species), Australia (eight) and Costa Rica (27) collect and process plant resins, addressing the importance of a largely neglected resource not only for building and defensive properties, but also for the bees’ chemical diversity. Stingless bees are highly opportunistic resin foragers with all species collecting resin from a similar set of tree species. They locate and/or recognize resin sources on the basis of several volatile mono- and sesquiterpenes. I found that different bee species and even colonies significantly varied in the amount of resin collected. Predator attack (e.g., by ants) had the strongest affect on resin intake, whereas manual nest destruction only slightly increased the number of resin foragers. Resin is used to build, maintain and defend nests, but also as source for chemical compounds (terpenes) which stingless bees include in their surface profiles (chemical profiles). They directly transfer resin-derived compounds to their body surfaces (cuticular terpenes), but only include a subset (8 %) of the large number (>> 1000) of terpenes found in tree resins. This phenomenon can only be explained by a hitherto unknown ability to filter environmentally derived compounds which results in species-specific terpene profiles and thus in an increased chemical heterogeneity among species. Moreover, due to the addition of resin-derived substances the diversity of compounds on the bees’ body surfaces by far exceeds the chemical diversity of profiles in other hymenopterans. Because stingless bees filter but do not modify resin-derived compounds, species from Borneo, Australia and Costa Rica all resemble the characteristic resin of typical trees in their regions of origin. This chemical similarity reveals a strong correlation between the diversity of tree resins and the diversity of cuticular terpenes among stingless bees in a given habitat. Because different tree species are found in different tropical regions, the chemical composition of tree resins varies between tropical regions as does the composition of cuticular terpenes in bee species from these regions. Cuticular terpenes are however most common among stingless from Borneo, with 100 % of species studied having resin-derived terpenes in their chemical profiles. They are least common in Costa Rica, with only 40 % of species having terpenes. Likewise, resin collection was found to be highest in Tetragonilla collina colonies of Borneo where occasionally up to 90 % of foragers collected resin. By contrast, resin collection was only performed by 10 % of foragers of a given colony in Australia and by a maximum of 40 % in Costa Rica. The dominance of resin and resin-derived compounds in the chemical ecology of bees from Borneo may mirror the dominance of a particular Southeast Asian tree family: the highly resinous dipterocarps. Such a correlation between the chemistry of bees and the chemistry of tree resins therefore underlines the close relationship between stingless bees and the trees of their habitat. Cuticular terpenes are assumed to protect bees against predators and/or microbes. Sesquiterpenes, a specific group of terpenes, most vary between species and impair inter-specific aggression by reducing aggressive behavior in species without sesquiterpenes, thereby providing a novel mechanism to achieve interspecific tolerance among insects. Reduced interspecific aggression may also be an important factor enabling the non-aggressive aggregation of nests from stingless bee colonies of up to four different species, because such aggregations frequently comprise both species with and species without sesquiterpenes. Given its various functions, resin represents a highly important resource for stingless bees which directly affects their chemical ecology, defensive properties and inter-specific communication. It remains to be investigated how the bees influence the resin-derived terpene profiles on their body surface and in their nests, particularly how they manage to exclude entire groups of terpenes. Whether bees actually need a high diversity of different resin sources and therefore tree species to maintain the homeostasis of their colonies or whether they would do equally well with a limited amount of resin sources available, should also be addressed in future studies. Answers to this question will directly impair bee and forest management in (sub)tropical regions.
Scents as Floral Defence : Impact on Species and Communities, Mechanisms and Ecological Consequences
(2010)
Floral scents are compositions of diverse volatile substances. Despite the chemical complexity, the interpretation of their ecological relevance was mostly confined to the attractive function facilitating interactions with pollinators. However, the negative impact on plants’ reproduction by non-pollinating flower visitors is pronounced and demands floral adaptations that exclude antagonists. The aim of this dissertation was to explore the defensive properties of floral odours and to imbed them into ecological contexts. The thesis covered four scopes: the scents’ impact on individual species and on flower-visitor communities, the mechanisms that explain the dual function of floral volatiles (attraction and defence), and the ecological consequences of missing defences for plants and pollinators. The most important floral antagonists that are known to reduce the reproductive fitness of plants were identified and their responses towards floral scents were examined. We found that representatives of non‐pollinating florivores (bush crickets), predators that lure for pollinators (spiders), and microorganisms that potentially colonize petals were repelled, deterred or inhibited in their growth by floral secondary metabolites. An earlier study revealed the same effect on nectar thieving ants. These experimental studies clearly demonstrate that scents universally serve as floral defences that have the potential to reduce or even prevent the visitation and exploitation of flowers by these antagonists. Within diverse communities, we tested whether species‐specific responses to odours reflect the structure of naturally occurring flower-visitor interactions in order to examine the ecological importance of defensive floral scents. On three Hawaiian Islands, ant-flower interactions involving co-occurring native and introduced plants were observed. Ants were historically absent from the geographically isolated Hawaiian archipelago. Thus, we hypothesized that native Hawaiian plants lack floral features that exclude ants and therefore would be heavily exploited by introduced, invasive ants. We quantified the residual interaction strength of each pair of ant/plant species as the deviation of the observed interaction frequency from a null-model prediction based on available nectar sugar in a local plant community and local ant activity at sugar baits. As predicted, flowers of plants that are endemic or indigenous to Hawaii were stronger exploited by ants than flowers of co- occurring introduced plants, which share an evolutionary history with ants. We showed experimentally that the absence of ants on flowers of most introduced and few native plants species was due to morphological barriers and/or repellent floral scents, examined in a mobile olfactometer. Analysis of floral volatiles, however, revealed no consistent ant- repellent “syndrome”, probably due to the high chemical variability within the floral scent bouquets. On a fallow land in Germany, we linked the responses of receivers (flower visitors) towards signals (flower scent) with the structure of a highly diverse natural flower-insect network. For each interaction, we defined link temperature – a newly developed metric – as the deviation of the observed interaction strength from neutrality, assuming that animals randomly interact with flowers. Link temperature was positively correlated to the specific visitors' responses to floral scents. Thus, communication between plants and consumers via phytochemical signals reflects a significant part of the microstructure in a complex network. Negative as well as positive responses towards floral scents contributed to these results, where individual experience was important, apart from innate behaviour. The demonstration of the contrasting functions of floral scents that control the visitor spectrum of flowers represents the first evidence that floral scents act as filters allowing access to some flower visitors but simultaneously exclude others. These findings raise the central question of this thesis: what evolutionary mechanism explains the dual function of floral scents? The view of flower visitors as mutualistic and antagonistic agents considers primarily the interest of plants. A classification emphasizing the consumer’s point of view, however, may be more useful when considering adaptations of animals to flower visits. Therefore, we introduced a novel classification that acknowledges the consumers’ interest in the interaction: some animals evolved an obligate dependence on floral resources, others use nectar and pollen as supplement to their diet and are thus regarded as facultative flower visitors. In a meta-analysis covering 18 studies on the responses of animals to floral scents, we assigned the animals to the categories of obligate or facultative flower visitors. Their responses to floral scents were compared. On average, obligate flower visitors, often corresponding to pollinators, were attracted to floral scent compounds. In contrast, facultative and mainly antagonistic visitors were strongly repelled by flower odours. The findings confirm that floral scents have a dual function both as attractive and defensive cues. Whether an animal depends on floral resources determines its response to these signals, suggesting that obligate flower visitors evolved a tolerance against primarily defensive compounds. These findings were confirmed in an experimental study. We conclude that floral scents protect flowers against visitors that would otherwise reduce the reproductive success of plants. In Hawaii, where flowers do not have defensive means against ants, we studied the impact of ants on the pollination effectiveness of endemic and introduced bees and on the fruit set of an endemic tree Metrosideros polymorpha (Myrtaceae). Ants were dominant nectar-consumers that mostly depleted the nectar of visited inflorescences. Accordingly, the visitation frequency, duration, and consequently the pollinator effectiveness of nectar-foraging bees strongly decreased on ant-visited flowers, whereas pollen-collecting bees remained largely unaffected by ants. Overall, endemic bees (Hylaeus spp.) were much poorer pollinators than introduced honeybees (Apis mellifera). The average net effect of ants on pollination of M. polymorpha was neutral, corresponding to a similar fruit set of ant-visited and ant-free inflorescences. A second Hawaiian plant species, Vaccinium reticulatum (Ericaceae), was visited by the caterpillars of an introduced plume moth (Stenoptilodes littoralis) that destroyed buds and flowers of this species. The ants’ presence on flowers strongly reduced flower parasitism by the caterpillars and consequently decreased the loss of flowers and buds. This is, to our knowledge, the first documented mutualism between invasive ants and an endemic plant species in Hawaii. Thus, ants that have been shown to be detrimental flower visitors elsewhere, had neutral (M. polymorpha) or even positive (V. reticulatum) effects on endemic Hawaiian plants. However, their overall negative effect on the Hawaiian flora and fauna should not be disregarded.
PART I Animals need to constantly evaluate their external environment in order to survive. In some cases the internal state of the animal changes to cope with it’s surrounding. In our study we wanted to investigate the role of amines in modulating internal states of Drosophila. We have designed a behavioral paradigm where the flies are fixed in space but can walk on a small styrofoam ball suspended by a gentle stream of air. The walking activity of flies was used as behavioral readout. PART I Animals need to constantly evaluate their external environment in order to survive. In some cases the internal state of the animal changes to cope with it’s surrounding. In our study we wanted to investigate the role of amines in modulating internal states of Drosophila. We have designed a behavioral paradigm where the flies are fixed in space but can walk on a small styrofoam ball suspended by a gentle stream of air. The walking activity of flies was used as behavioral readout. An operant training paradigm was established by coupling one of the walking directions to incidence of heat punishment. We observed that animals quickly realized the contingency of punishment with walking direction and avoided walking in the punished direction in the presence of punishment, but did not continue walking in the unpunished direction in the absence of the punishment. This would indicate that the flies do not form a memory for the punished direction or rapidly erase it under new conditions. On having established the paradigm with heat punishment we have attempted to activate selected subsets of neuronal populations of Drosophila while they were walking on the ball. The selective activation of neurons was achieved by expressing the light-activated ion channel channelrhodopsin-2 (ChR2) using the Gal4-UAS system and coupling the unidirectional walking of the animals on the ball with the incidence of blue light required to activate the channels and depolarize the neurons. The feasibility of this approach was tested by light-activating sugar sensitive gustatory receptor neurons expressing ChR2, we found that when the light was actuated the flies preferred to turn in one direction the optically “rewarded” direction. Next we similarly activated different subsets of aminergic neurons. We observed that in our setup animals avoided to turn in the direction which was coupled to activation of dopaminergic neurons indicating that release of dopamine is disliked by the animals. This is in accordance with associative learning experiments where dopamine is believed to underlie the formation of an association between a neutral conditioned stimulus with the aversive unconditioned stimulus. However, when we activated tyraminergic/octopaminergic neurons we did not observe any directional preference. The activation of dopaminergic and tyraminergic/octopaminergic neurons led to arousal of the animals indicating that we were indeed successful in activating those neurons. Also, the activation of serotonergic neurons did not have any effect on directional preference of the animals. With this newly established paradigm it will be interesting to find out if in insects like in mammals a reward mediating system exists and to test subsets of aminergic or peptidergic neurons that could possibly be involved in a reward signaling system which has not been detected in our study. Also, it would be interesting to localize neuropile regions that would be involved in mediating choice behavior in our paradigm. PART II In collaboration with S. Kneitz (IZKF Wuerzburg) and T. Nuwal we performed genome-wide expression analysis of two pre-synaptic mutants - Synapsin (Syn97) and Synapse associated protein of 47 kDa (Sap47156). The rationale behind these experiments was to identify genes that were up- or down-regulated due to these mutations. The microarray experiments provided us with several candidate genes some of which we have verified by qPCR. From our qPCR analysis we can conclude that out of the verified genes only Cirl transcripts seem to be reproducibly down regulated in Synapsin mutants. The Cirl gene codes for a calcium independent receptor for latrotoxin. Further qPCR experiments need to be performed to verify other candidate genes. The molecular interactions between CIRL and SYN or their genes should now be investigated in detail.
In this thesis we have used Drosophila melanogaster as a model organism to investigate proteins and their putative interacting partners that are directly or indirectly involved in the release of neurotransmitters at the synapse. We have used molecular techniques to investigate conserved synaptic proteins, synapsin and synapse associated protein of 47 kD (SAP47), and a putative interaction partner of SAP47, tubulin binding chaperone E-like (TBCEL). SAP47 and synapsins are highly conserved synaptic vesicle associated proteins in Drosophila melanogaster. To further investigate the role and function of Sap47 and Syn genes, we had earlier generated the null mutants by P-element mutagenesis (Funk et al., 2004; Godenschwege et al., 2004). Western blots and ELISA of brain homogenates from Sap47156 null mutants showed the presence of up-regulated phospho-synapsin in comparison to wild-type (CS) and the presence of up-regulated phospho-synapsin was partially abolished when a pan-neuronal rescue of SAP47 was performed by the Gal4- UAS technique. Thus, the results suggest a qualitative and quantitative modulation of synapsin by SAP47. At the transcript level, we did not observe any difference in content of Syn transcript in Sap47156 and wild-type CS flies. The question of a direct molecular interaction between SAP47 and synapsin was investigated by co-immunoprecipitation (Co-IP) experiments and we did not find any stable interactions under the several IP conditions we tested. The possibility of Sap47 as a modifier of Syn at the genetic level was investigated by generating and testing homozygous double null mutants of Sap47 and Syn. The Syn97, Sap47156 double mutants are viable but have a reduced life span and decreased locomotion when compared to CS. In 2D-PAGE analysis of synapsins we identified trains of spots corresponding to synapsins, suggesting that synapsin has several isoforms and each one of them is posttranslationally modified. In an analysis by Blue native-SDS-PAGE (BN-SDS-2D- PAGE) and Western blot we observed synapsin and SAP47 signals to be present at 700-900 kDa and 200-250 kDa, respectively, suggesting that they are part of large but different complexes. We also report the possibility of Drosophila synapsin forming homo- and heteromultimers, which has also been reported for synapsins of vertebrates. In parallel to the above experiments, phosphorylation of synapsins in Drosophila was studied by IP techniques followed by 1D-SDS gel electrophoresis and mass spectrometry (in collaboration with S. Heo and G. Lubec). We identified and verified 5 unique phosphorylation sites in Drosophila synapsin from our MS analysis. Apart from phosphorylation modifications we identified several other PTMs which have not been verified. The significance of these phosphorylations and other identified PTMs needs to be investigated further and their implications for synapsin function and Drosophila behavior has to be elucidated by further experiments. In a collaborative project with S. Kneitz and N. Nuwal, we investigated the effects of Sap156 and Syn97 mutations by performing a whole Drosophila transcriptome microarray analysis of the individual null mutants and the double mutants (V2 and V3). We obtained several candidates which were significantly altered in the mutants. These genes need to be investigated further to elucidate their interactions with Sap47 and Syn. In another project, we investigated the role and function of Drosophila tubulin- binding chaperone E-like (Tbcel, CG12214). The TBCEL protein has high homology to vertebrate TBCE-like (or E-like) which has high sequence similarity to tubulin-binding chaperone E (TBCE) (hence the name TBCE-Like). We generated an anti-TBCEL polyclonal antiserum (in collaboration with G. Krohne). According to flybase, the Tbcel gene has only one exon and codes for two different transcripts by alternative transcription start sites. The longer transcript RB is present only in males whereas the shorter transcript RA is present only in females. In order to study the gene function we performed P- element jump-out mutagenesis to generate deletion mutants. We used the NP4786 (NP) stock which has a P(GawB) insertion in the 5’ UTR of the Tbcel gene. NP4786 flies are homozygous lethal due to a second-site lethality as the flies are viable over a deficiency (Df) chromosome (a deletion of genomic region spanning the Tbcel gene and other upstream and downstream genes). We performed the P-element mutagenesis twice. In the first trial we obtained only revertants and the second experiment is still in progress. In the second attempt, jump-out was performed over the deficiency chromosome to prevent homologous chromosome mediated double stranded DNA repair. During the second mutagenesis an insertion stock G18151 became available. These flies had a P-element insertion in the open reading frame (ORF) of the Tbcel gene but was homozygous viable. Western blots of fresh tissue homogenates of NP/Df and G18151 flies probed with anti-TBCEL antiserum showed no TBCEL signal, suggesting that these flies are Tbcel null mutants. We used these flies for further immunohistochemical analyses and found that TBCEL is specifically expressed in the cytoplasm of cyst cells of the testes and is associated with the tubulin of spermatid tails in wild-type CS, whereas in NP/Df and G18151 flies the TBCEL staining in the cyst cells was absent and there was a disruption of actin investment cones. We also found enrichment of TBCEL staining around the actin investment cone. These results are also supported by the observation that the enhancer trap expression of the NP4786 line is localised to the cyst cells, similar to TBCEL expression. Also, male fertility of NP/Df and G18151 flies was tested and they were found to be sterile with few escapers. Thus, these results suggest that TBCEL is involved in Drosophila spermatogenesis with a possible role in the spermatid elongation and individualisation process.
This thesis consists of three major chapters, each of which has been separately published or under the process for publication. The first chapter is about anatomical characterization of the mushroom body of adult Drosophila melanogaster. The mushroom body is the center for olfactory learning and many other functions in the insect brains. The functions of the mushroom body have been studied by utilizing the GAL4/UAS gene expression system. The present study characterized the expression patterns of the commonly used GAL4 drivers for the mushroom body intrinsic neurons, Kenyon cells. Thereby, we revealed the numerical composition of the different types of Kenyon cells and found one subtype of the Kenyon cells that have not been described. The second and third chapters together demonstrate that the multiple types of dopaminergic neurons mediate the aversive reinforcement signals to the mushroom body. They induce the parallel memory traces that constitute the different temporal domains of the aversive odor memory. In prior to these chapters, “General introduction and discussion” section reviews and discuss about the current understanding of neuronal circuit for olfactory learning in Drosophila.
The human gut is home for thousands of microbes that are important for human life. As most of these cannot be cultivated, metagenomics is an important means to understand this important community. To perform comparative metagenomic analysis of the human gut microbiome, I have developed SMASH (Simple metagenomic analysis shell), a computational pipeline. SMASH can also be used to assemble and analyze single genomes, and has been successfully applied to the bacterium Mycoplasma pneumoniae and the fungus Chaetomium thermophilum. In the context of the MetaHIT (Metagenomics of the human intestinal tract) consortium our group is participating in, I used SMASH to validate the assembly and to estimate the assembly error rate of 576.7 Gb metagenome sequence obtained using Illumina Solexa technology from fecal DNA of 124 European individuals. I also estimated the completeness of the gene catalogue containing 3.3 million open reading frames obtained from these metagenomes. Finally, I used SMASH to analyze human gut metagenomes of 39 individuals from 6 countries encompassing a wide range of host properties such as age, body mass index and disease states. We find that the variation in the gut microbiome is not continuous but stratified into enterotypes. Enterotypes are complex host-microbial symbiotic states that are not explained by host properties, nutritional habits or possible technical biases. The concept of enterotypes might have far reaching implications, for example, to explain different responses to diet or drug intake. We also find several functional markers in the human gut microbiome that correlate with a number of host properties such as body mass index, highlighting the need for functional analysis and raising hopes for the application of microbial markers as diagnostic or even prognostic tools for microbiota-associated human disorders.
Cysteines play important roles in the biochemistry of many proteins. The high reactivity, redox properties, and ability of the free thiol group to coordinate metal ions designate cysteines as the amino acids of choice to form key catalytic components of many enzymes. Also, cysteines readily react with reactive oxygen and nitrogen species to form reversible oxidative thiol modifications. Over the last few years, an increasing number of proteins have been identified that use redox-mediated thiol modifications to modulate their function, activity, or localization. These redox-regulated proteins are central players in numerous important cellular processes. First aim of this study was to discover nitric oxide (NO) sensitive proteins in E. coli, whose redox-mediated functional changes might explain the physiological alterations observed in E. coli cells suffering from NO-stress. To identify E. coli proteins that undergo reversible thiol modifications upon NO-treatment in vivo, I applied a differential thiol trapping technique combined with two-dimensional gel analysis. 10 proteins were found to contain thiol groups sensitive to NO-treatment. Subsequent genetic studies revealed that the oxidative modifications of AceF & IlvC are, in part, responsible for the observed NO-induced growth inhibition. Noteworthy, the majority of identified protein targets turned out to be specifically sensitive towards reactive nitrogen species. This oxidant specificity was tested on one NO-sensitive protein, the small subunit of glutamate synthase. In vivo and in vitro activity studies demonstrated that glutamate synthase rapidly inactivates upon nitric oxide treatment but is resistant towards other oxidative stressors. These results imply that reactive oxygen and nitrogen species affect distinct physiological processes in bacteria. The second aim of my study was to identify redox-sensitive proteins in S. cerevisiae and to use their redox state as in vivo read-out to assess the role of oxidative stress during the eukaryotic aging process. I first determined the precise in vivo thiol status of almost 300 yeast proteins located in the cytosol and sub-cellular compartments of yeast cells using a highly quantitative mass spectrometry based thiol trapping technique, called OxICAT. The identified proteins can be clustered in four groups: 1) proteins, whose cysteine residues are oxidation resistant; 2) proteins with structurally or functionally important cysteine modifications 3) proteins with highly oxidation-sensitive active site cysteines, which are partially oxidized in exponentially growing yeast cells due to their exquisite sensitivity towards low amounts of ROS; 4) proteins that are reduced in exponentially growing cells but harbor redox-sensitive cysteine(s) that affect the catalytic function of the protein during oxidative stress. These oxidative stress sensitive proteins were identified by exposure of yeast cells to sublethal concentrations of H2O2 or superoxide. It was shown that the major targets of peroxide- and superoxide-mediated stress in the cell are proteins involved in translation, glycolysis, TCA cycle and amino acid biosynthesis. These targets indicate that cells rapidly redirect the metabolic flux and energy towards the pentose phosphate pathway in an attempt to ensure the production of the reducing equivalent NADPH to counterattack oxidative stress. These results reveal that the quantitative assessment of a protein’s oxidation state is a valuable tool to identify catalytically active and redox-sensitive cysteine residues. The OxICAT technology was then used to precisely determine extent and onset of oxidative stress in chronologically aging S. cerevisiae cells by utilizing the redox status of proteins as physiological read-out. I found that chronological aging yeast cells undergo a global collapse of the cellular redox homeostasis, which precedes cell death. The onset of this collapse appears to correlate with the yeast life span, as caloric restriction increases the life span and delays the redox collapse. These results suggest that maintenance of the redox balance might contribute to the life expanding benefits of regulating the caloric intake of yeast. Clustering analysis of all oxidatively modified proteins in chronological aging yeast revealed a subset of proteins whose oxidative thiol modifications significantly precede the general redox collapse. Oxidation of these early target proteins, which most likely results in a loss of their activity, might contribute to or even cause the observed loss of redox homeostasis (i.e., thioredoxin reductase) in chronologically aging yeast. These studies in aging yeast expand our understanding how changes in redox homeostasis affect the life span of yeast cells and confirm the importance of oxidative thiol modifications as key posttranslational modifications in pro- and eukaryotic organisms.
This study was conducted to determine the influence of different stress factors on the honeybee Apis mellifera. The investigation was motivated by previous experiments that suggested the existence of an unspecific defense mechanism causing a generalized change of flight behavior after the onset of different diseases. This mechanism is thought to impede the ability of flight bees to return to their respective colonies thereby removing the disease from the colony over time. During the last years, the existence of such a “suicidal behavior” was supported by further studies. Thus, an unnoticed, potentially highly effective defense mechanism of social insects was revealed whose spectrum of activity and physiological basics require further investigation. Suggesting that the reaction by the bees is unspecific to different diseases as well as to other potential stress factors, this study was designed to investigate the influence of pathogens, insecticides, and different brood rearing temperatures on different parameters like lifespan, foraging activity, and foraging trip duration of worker bees.
Pluripotency describes the ability of stem cells to form every cell type of the body.. Pluripotent stem cells are e.g. embryonic stem cells (ESCs), but also the so called induced pluripotent stem cells (IPS cells), that are generated by reprogramming differentiated somatic cells into a pluripotent state. Furthermore, it has been shown that spermatogonia (SG) derived from adult testes of mouse or human are pluripotent. Because of their ability to differentiate into every somatic cell type, pluripotent stem cells have a unique status in research and regenerative medicine. For the latter, they offer a valuable opportunity to replace destroyed tissues or organs. For basic research, stem cells represent a useful system to study differentiation or developmental processes that are difficult to access in the physiological situation e.g. during embryogenesis. Both applications, however, require methods that allow efficient and directed differentiation of stem cells into defined specialized cell types. This study first aims to investigate the differentiation potential of SG derived from the teleost fish medaka (Oryzias latipes). My results demonstrate that medaka SG are able to form different somatic cell types, namely adipocytes, melanocytes, osteoblasts, and neurons. This indicates that medake SG have retained a broad differentiation potential suggesting that pluripotency is not restricted to mouse and human SG but might be conserved among vertebrates. Next, I wanted to establish a differentiation method that is solely based on ectopic expression of genes known to be essential for the formation of certain somatic cell types – so called master regulators (MRs). My findings show that ectopic expression of the melanocyte-specific transcription factor mitf-m that has previously been shown to induce differentiation of medaka ESCs into pigment cells resulted in the formation of the same cell type in medaka SG. This approach could be used to generate other somatic cell types. Thus, ectopic expression of the MRs cbfa1 and mash1 in MF-SG was sufficient to induce differentiation into osteoblasts and neurons, respectively. Interestingly, these differentiation processes included the activation of genes that are expressed earlier during embryogenesis than the differentiation-inducing MR. Furthermore, my findings show that the approach of MR-induced differentiation can be transferred to mammalian stem cell systems. Ectopic expression of the neural transcription factor ngn2 was sufficient to induce efficient and rapid differentiation of neurons in mouse ESCs. This differentiation process also included the induction of genes that in vivo are activated at earlier stages that ngn2. By generating a transgenic cell line allowing induction of ectopic ngn2 expression, it was possible to obtain a relatively pure culture of functional neurons. Ngn2-induced differentiation did not require any additional signals and occurred even under pluripotency promoting conditions. Moreover, ectopic expression of ngn2 did also induce the formation of cells with neuronal morphology in IPS cells indicating that MR-induced differentiation is operative in different stem cell types. Furthermore, protein transduction of Ngn2 into mouse ESCs also resulted in a neuronal differentiation process up to the appearance of neural precursor cells. Last, my results show that MR-induced differentiation can also be used to generate other cell types than neurons from mouse ESCs. Myoblasts and macrophage-like cells were generated by ectopic expression of the MRs myoD and cebpa, respectively. Using transgenic cell lines enabling induction of MR expression it was possible to obtain mixed cultures with two different differentiation processes occurring in parallel. Altogether this study shows that ectopic expression of single genes is sufficient to induce directed differentiation of stem cells into defined cell types. The feasibility of this approach was demonstrated for different MRs and consequently different somatic cell types. Furthermore, MR induced differentiation was operative in different stem cell types from fish and mouse. Thus, one can conclude that certain genes are able to define cell fates in in vitro stem cell systems and that this cell fate defining potential appears to be a conserved feature in vertebrates. These findings therefore provide new insights in the role of MRs in cell commitment and differentiation processes. Furthermore, this study presents a new method to induce directed differentiation of stem cells that offers several advantages regarding efficiency, rapidness, and reproducibility. MR-induced differentiation therefore represents a promising tool for both stem cell research and regenerative medicine.
Characterisation of Metalloprotease-mediated EGFR Signal Transactivation after GPCR Stimulation
(2011)
In the context of metalloprotease-mediated transactivation of the epidermal growth factor receptor, different monoclonal antibodies against ADAM17 / TACE were characterized for their ability to block the sheddase. Activity of some of them was observed at doses between 2µg/mL and 10µg/mL. Kinetic analyses showed their activity starting at around 30 minutes. In cellular assays performed with the antibodies, especially upon treatment of cells with sphingosine-1-phosphate a reduction in proliferation was observed with some candidates. Moreover this study provides potential new roles for ß-Arrestins. Their involvement in the triple membrane-passing signal pathway of EGFR transactivation was shown. Furthermore, in overexpressing cellular model systems, an interaction between ADAM17 and ß-Arrestin1 could be observed. Detailed analysis discovered that phosphorylation of ß-Arrestin1 is crucial for this interaction. Additionally, the novel mechanism of UV-induced EGFR transactivation was extended to squamous cell carcinoma. The mechanism happens in a dose dependent manner and requires a metalloprotease to shed the proligand Amphiregulin. The involvement of both ADAM9 and ADAM17, being the metalloproteases responsible for this cleavage, was shown for SCC9 cells.
Although age is one of the most salient and fundamental aspects of human faces, its processing in the brain has not yet been studied by any neuroimaging experiment. Automatic assessment of temporal changes across faces is a prerequisite to identifying persons over their life-span, and age per se is of biological and social relevance. Using a combination of evocative face morphs controlled for global optical flow and functional magnetic resonance imaging (fMRI), we segregate two areas that process changes of facial age in both hemispheres. These areas extend beyond the previously established face-sensitive network and are centered on the posterior inferior temporal sulcus (pITS) and the posterior angular gyrus (pANG), an evolutionarily new formation of the human brain. Using probabilistic tractography and by calculating spatial cross-correlations as well as creating minimum intersection maps between activation and connectivity patterns we demonstrate a hitherto unrecognized link between structure and function in the human brain on the basis of cognitive age processing. According to our results, implicit age processing involves the inferior temporal sulci and is, at the same time, closely tied to quantity decoding by the presumed neural systems devoted to magnitudes in the human parietal lobes. The ventral portion of Wernicke’s largely forgotten perpendicular association fasciculus is shown not only to interconnect these two areas but to relate to their activations, i.e. to transmit age-relevant information. In particular, post-hoc age-rating competence is shown to be associated with high response levels in the left angular gyrus. Cortical activation patterns related to changes of facial age differ from those previously elicited by other fixed as well as changeable face aspects such as gender (used for comparison), ethnicity and identity as well as eye gaze or facial expressions. We argue that this may be due to the fact that individual changes of facial age occur ontogenetically, unlike the instant changes of gaze direction or expressive content in faces that can be “mirrored” and require constant cognitive monitoring to follow. Discussing the ample evidence for distinct representations of quantitative age as opposed to categorical gender varied over continuous androgyny levels, we suggest that particular face-sensitive regions interact with additional object-unselective quantification modules to obtain individual estimates of facial age.
There is more and more evidence for the cancer stem cell hypothesis which believes that cancers are driven by a cellular subcomponent that has stem cell properties which is self-renewal, tumorigenicity and multilineage differentiation capacity. Cancer stem cells have been connected to the initiation of tumors and are even found to be responsible for relapses after apparently curative therapies have been undertaken. This hypothesis changes our conceptual approach of oncogenesis and shall have implications in breast cancer prevention, detection and treatment, especially in metastatic breast cancer for which no curative treatment exists. Given the specific stem cell features, novel therapeutic pathways can be targeted. Since the value of vaccinia virus as a vaccination virus against smallpox was discovered by E. Jenner at 18th century, it plays an important role in human medicine and molecular biology. After smallpox was successfully eradicated, vaccinia virus is mainly used as a viral vector in molecular biology and increasingly in cancer therapy. The outstanding capability to specifically target and destroy cancer cells makes it a perfect agent for oncolytic virotherapy. Furthermore, the virus can easily be modified by inserting genes which encode therapeutic or diagnostic proteins to be expressed when a tumor is infected. The emphasis in this study was the establishment of methods for the enrichment of human breast cancer stem-like cells from cancer cell lines and characterization of those cancer stem-like cells in vitro and in vivo. Furthermore, by using the Genelux Corporation vaccinia virus strain GLV-1h68, the isolated cancer stem-like cells can be targeted not only in vitro but also in vivo more efficiently. Side-population (SP) cells within cancers and cell lines are rare cell populations known to be enriched cancer stem-like cells. In this study, we used Hoechst 33342 staining and flow cytometry to identify SP cells from the human breast cancer cell lines MCF-7 and GI-101A as models for cancer stem-like cells. Considering the cytotoxicity of Hoechst dye and the restriction of instrument, we did not carry out further studies by this method. Utilizing in vitro and in vivo experimental systems, we showed that human breast cancer cell line GI-101A with aldehyde dehydrogenase activity (ALDH) have stemlike properties. Higher ALDH activity identifies the tumorigenic cell fraction which is capable of self-renewal and of generating tumors that could recapitulate the heterogeneity of the parental tumor. Furthermore, the cells with higher ALDH activity display significant resistance to chemotherapy and ionizing radiation, which proves their stem-like properties again. The cells which have higher ALDH activity also are more invasive compared to cells which have lower ALDH activity, which connects the cancer stem-like cells with cancer metastases. By analyzing the popular human breast cancer stem cells surface markers CD44, CD49f and CD24, it was discovered that the cells with higher ALDH activity have stronger CD44 and CD49f expression than in those cells with lower ALDH activity, which further confirms their stem-like properties. Finally, the cells with higher ALDH activity and lower ALDH activity were infected in vitro and used in virotherapy in a mouse xenograft model was performed. The results indicated that the vaccinia virus GLV-1h68 can replicate in cells with higher ALDH activity more efficiently than cells with lower ALDH activity. GLV-1h68 also can selectively target and eradicate the xenograft tumors which were derived from cells with higher ALDH activity. The epithelial-mesenchymal transition (EMT) is a key developmental program that is often activated during cancer invasion and metastases. EMT was induced in immortalized human mammary epithelial cells (HMLEs) and in GI-101A cells, which results in the acquisition of mesenchymal traits and in the expression of stem cell markers. Furthermore, the EMT-induced GI-101A cells showed resistance to chemotherapy and invasion capacity. CD44+/CD24- cells were enriched during the EMT induction. Following flow cytometry sorting by using CD44, CD24 and ESA surface marker, the sorted cells were tested in a mouse model regarding tumorigenicity. Unexpectedly, we found that CD44+/CD24+/ESA+ cells could initiate tumors more efficiently rather than CD44+/CD24-/ESA+ and other fractions in EMTinduced GI-101A cells. We also infected the CD44+/CD24+/ESA+ and CD44+/CD24- /ESA+ cells in vitro and performed virotherapy in a mouse xenograft model. The results indicated that the vaccinia virus GLV-1h68 is able to replicate in CD44+/CD24+/ESA+ cells more efficiently than in CD44+/CD24-/ESA+ cells. GLV-1h68 was also capable to selectively target and eradicate the xenograft tumors which derived from CD44+/CD24+/ESA+ cells. Moreover, CD44- cells have much lower tumorigenicity in the mouse model and CD44- cells derived-tumors are not responsive to vaccinia virotherapy. In summary, we have successfully established an in vitro and in vivo system for the identification, characterization and isolation of cancer stem-like cells from the human breast cancer cell line GI-101A by using the ALDEFLUOR assay. The vaccinia virus GLV-1h68 was able to efficiently target and eradicate the higher ALDH activity cells and tumors derived from those cells. Although contrary to the current assumption, CD44+/CD24+/ESA+ cells in the EMT-induced GI-101A cell line showed stem-like properties and GLV-1h68 was able to efficiently target and eradicate the CD44+/CD24+/ESA+ cells and tumors which derived from those cells. Finally, improved understanding of cancer stem cells may have tremendous relevance for how cancer should be treated. It is menacing that cancer stem cells are resistant to almost all anti-tumor approaches which have already been established for the treatment of metastatic diseases such as ionizing radiation, hormonal therapy, chemotherapy, and small molecular inhibitors. Therefore, it is promising that our results suggest that these cancer stem cells may be susceptible to treatment with oncolytic vaccinia virus.
Molecular modelling and simulation are powerful methods in providing important in-formation on different biological systems to elucidate their structural and functional proper-ties, which cannot be determined in experiment. These methods are applied to analyse versa-tile biological systems: lipid membrane bilayers stabilized by an intercalated single wall carbon nanotube and retroviral proteins such as HIV protease and integrase. HIV-1 integrase has nuclear localization signals (NLS) which play a crucial role in nuclear import of viral preintegration complex (PIC). However, the detailed mechanisms of PIC formation and its nuclear transport are not known. Previously it was shown that NLSs bind to the cell transport machinery e.g. proteins of nuclear pore complex such as transportins. I investigated the interaction of this viral protein HIV-1 integrase with proteins of the nuclear pore complex such as transportin-SR2 (Shityakov et al., 2010). I showed that the transportin-SR2 in nuclear import is required due to its interaction with the HIV-1 integrase. I analyzed key domain interaction, and hydrogen bond formation in transportin-SR2. These results were discussed in comparison to other retroviral species such as foamy viruses to better understand this specific and efficient retroviral trafficking route. The retroviral nuclear import was next analyzed in experiments regarding the retroviral ability to infect nondividing cells. To accomplish the gene transfer task successfully, ret-roviruses must efficiently transduce different cell cultures at different phases of cell cycle. However, promising and safe foamy viral vectors used for gene transfer are unable to effi-ciently infect quiescent cells. This drawback was due to their inability to create a preintegra-tion complex (PIC) for nuclear import of retroviral DNA. On the contrary, the lentiviral vec-tors are not dependant on cell cycle. In the course of reverse transcription the polypurine tract (PPT) is believed to be crucial for PIC formation. In this thesis, I compared the transduction frequencies of PPT modified FV vectors with lentiviral vectors in nondividing and dividing alveolar basal epithelial cells from human adenocarcinoma (A549) by using molecular cloning, transfection and transduction techniques and several other methods. In contrast to lentiviral vectors, FV vectors were not able to effi-ciently transduce nondividing cell (Shityakov and Rethwilm, unpublished data). Despite the findings, which support the use of FV vectors as a safe and efficient alternative to lentiviral vectors, major limitation in terms of foamy-based retroviral vector gene transfer in quiescent cells still remains. Many attempts have been made recently to search for the potential molecules as pos-sible drug candidates to treat HIV infection for over decades now. These molecules can be retrieved from chemical libraries or can be designed on a computer screen and then synthe-sized in a laboratory. Most notably, one could use the computerized structure as a reference to determine the types of molecules that might block the enzyme. Such structure-based drug design strategies have the potential to save off years and millions of dollars compared to a more traditional trial-and-error drug development process. After the crystal structure of the HIV-encoded protease enzyme had been elucidated, computer-aided drug design played a pivotal role in the development of new compounds that inhibit this enzyme which is responsible for HIV maturation and infectivity. Promising repre-sentatives of these compounds have recently found their way to patients. Protease inhibitors show a powerful sustained suppression of HIV-1 replication, especially when used in combi-nation therapy regimens. However, these drugs are becoming less effective to more resistant HIV strains due to multiple mutations in the retroviral proteases. In computational drug design I used molecular modelling methods such as lead ex-pansion algorithm (Tripos®) to create a virtual library of compounds with different binding affinities to protease binding site. In addition, I heavily applied computer assisted combinato-rial chemistry approaches to design and optimize virtual libraries of protease inhibitors and performed in silico screening and pharmacophore-similarity scoring of these drug candidates. Further computational analyses revealed one unique compound with different protease bind-ing ability from the initial hit and its role for possible new class of protease inhibitors is dis-cussed (Shityakov and Dandekar, 2009). A number of atomistic models were developed to elucidate the nanotube behaviour in lipid bilayers. However, none of them provided useful information for CNT effect upon the lipid membrane bilayer for implementing all-atom models that will allow us to calculate the deviations of lipid molecules from CNT with atomistic precision. Unfortunately, the direct experimental investigation of nanotube behaviour in lipid bilayer remains quite a tricky prob-lem opening the door before the molecular simulation techniques. In this regard, more de-tailed multi-scale simulations are needed to clearly understand the stabilization characteristics of CNTs in hydrophobic environment. The phenomenon of an intercalated single-wall carbon nanotube in the center of lipid membrane was extensively studied and analyzed. The root mean square deviation and root mean square fluctuation functions were calculated in order to measure stability of lipid mem-branes. The results indicated that an intercalated carbon nanotube restrains the conformational freedom of adjacent lipids and hence has an impact on the membrane stabilization dynamics (Shityakov and Dandekar, 2011). On the other hand, different lipid membranes may have dissimilarities due to the differing abilities to create a bridge formation between the adherent lipid molecules. The results derived from this thesis will help to develop stable nanobiocom-posites for construction of novel biomaterials and delivery of various biomolecules for medi-cine and biology.
This work delves into the recently developed ‘Whedo’-aquaculture-system in the rural community of Malanville (North Benin)and aims on providing a closer insight on this – for the area--recent system including the ecological but also the sociological and economical aspects in order to develop this extensive traditional fishery to a more productive semi-intensive aquaculture system. With the retreat of the flood ‘Whedos’ usually become infested with numerous hydato-and tenagophytes, while the presence and density of the free-floating macrophytes were positively related to the nutrient content of the ‘Whedo’. Extensive plant infestation also affects water quality through the decomposition of organic material and its accumulation in thick mud layers on the pond bottom as well as through the nocturnal oxygen consumption. Unfavourable water quality, especially low dissolved oxygen as well as high conductivity and nitrite levels, was identified to be the main factor determining which fish species were able to survive the harsh conditions prevailing in the ‘Whedos’ during the dry season. With the deteriorating water quality with advancing dry season, fish diversity decreased significantly leaving only species that are highly adapted to such unfavourable conditions. The most abundant species were Clarias gariepinus, Heterotis niloticus, Oreochromis niloticus L., Hemichromis c.f. letourneauxi, Polypterus senegalus and Epiplatys spilargyreius. Besides, the investigations also concentrated on the fish diversity of the rivers Niger and Sota with the results that for three species distribution gaps could be closed and for further three species their already known distribution could be expanded. But otherwise it could also be detected that some economically important species that were abundant in the past. In regard to the ‘Whedo’-management, the investigations showed that the owners lack most of the knowledge on appropriate management strategies, e.g. the feeding and stocking regime. The exploitation period depends on the extent of the previous annual flood and the location of the ‘Whedo’ within the floodplain, but the main season is from February to April. The biomass harvested on a hectare basis separated for each of the ‘Whedos’ averaged 17 tons/ha in 2008 and 8.6 tons/ha in 2009. However, 72 percent of the total biomass of Clarias only had an average weight of 40 grams. Therefore, two separated feeding trials were conducted and in total 6 supplementary feeds were tested on Clarias gariepinus. Groundnut cake, fish trash, rice bran, blood meal and azolla meal were used in different combination and rations to formulate the experimental diets. Diet containing 19 percent blood meal resulted in the best economical benefits showing that the use of high quality feed ingredients such as groundnut cake is not recommendable because local fish prices are too low to compensate the additional feeding costs. Instead of high quality feed farmers should focus on ingredients that are free of charge and easy to process. The supplementation based on 19 percent blood meal resulted in the doubling of the net profit compared to the income based on feeding only rice bran, thus provided higher additional income, enhancing the livelihood of the fish farmers. Concluding, the ‘Whedo’-aquaculture system is still in its infancy but nevertheless is an attractive system for the rural population because of existing knowledge of post-flood wetland fisheries as well as the low investment needed for its installation. Additionally, the local fish supply will increase and hence not only contribute to a better provision of protein-rich food and reduced pressure on the wild fish stocks but might also prevent fish prices to increase in a way that the poor won’t be able anymore to afford their most important source of animal protein. But fish farmers need more knowledge on appropriate management strategies and thus should be provided with technical support to guarantee a successful development and not to discourage the owners as a consequence of avoidable failures. Furthermore, the use of supplementary feed offers a cheap and effective means to increase the biomass production and thus enhance the extensive fishery to a semi-intensive aquaculture system.
Spir proteins are the founding members of the novel class of WH2-actin nucleators. A C-terminal modified FYVE zinc finger motif is necessary to target Spir proteins towards intracellular membranes. The function and regulation of the Spir actin organizers at vesicular membranes is almost unknown. Live cell imaging analyses performed in this study show that Spir-2 is localized at tubular vesicles. Cytoplasmic Spir-2-associated vesicles branch and form protrusions, which can make contacts to the microtubule network, where the Spir-2 vesicles stretch and slide along the microtubule filaments. The analysis of living HeLa cells expressing eGFP-tagged Spir-2, Spir-2-ΔKIND and Spir-2-ΔKW (lacking the 4 WH2 domains and the KIND domain) showed Spir-2-associated tubular structures which differ in their length and motility. Throughout the course of that study it could be shown that the tail domain of the actin motor protein myosin Vb, as a force-generating molecule, is colocalizing and co-immunoprecipitating with Spir-2-ΔKW. By using the tail domain of myosin Vb as a dominant negative mutant for myosin Vb-dependent vesicle transport processes it could be shown that Spir-2-ΔKW/MyoVb-cc-tail- associated vesicles exhibit an increased elongation. Moreover, using the microtubule depolymerizing drug nocodazole it could be shown that the elongation and the motility of Spir-2-ΔKW-associated vesicles depends on an intact microtubule cytoskeleton. Motility and morphological dynamics of Spir-2-associated vesicles is therefore dependent on actin, actin motorproteins and microtubule filaments. These results propose a model in which myosin/F-actin forces mediate vesicle branching, allowing the vesicles to move to and in between the microtubule filaments and thereby providing a new degree of freedom in vesicular motility. To determine the exact subcellular localization of Spir-2, colocalization studies were performed. It could be shown that Spir-2 shows a partial colocalization to Rab11a-positive compartments. Furthermore, Spir-2 exhibits an almost identical localization to Arf1 and the Arf1 small G protein but not Rab11a could be immunoprecipitated with Spir-2-ΔKW. This suggests, that Arf1 recruits Spir-2 to Arf1/Rab11a-positive membranes. Another important function of the Spir-2 C-terminus is the membrane targeting by the FYVE domain. By performing a protein-lipid overlay assay, it has been shown that purified GST- and 6xHis-tagged Spir-2-ΔKW bind phosphatidic acid suggesting a mechanism in which Spir-2 is recruited to phosphatidic acid-enriched membranes. To further elucidate the mechanism in which Spir-2 membrane-targeting could be regulated, interaction studies of C-terminal parts of Spir-2 revealed that the Spir-2 proteins interact directly.
The Ecology and Population structure of the invasive Yelllow Crazy Ant Anoplolepis gracilipes
(2011)
The invasive Yellow Crazy Ant Anoplolepis gracilipes is a widespread tropical ant species which is particularly common in anthropogenically disturbed habitats in South-East Asia and the Indopacific region. Its native range is unknown, and there is little information concerning its social structure as a potential mechanism facilitating invasion as well as its ecology in one of the putative native ranges, South-East Asia. Using mitochondrial DNA sequences, I demonstrated that the majority of the current Indopacific colonies were likely introduced from South-East Asian populations, which in turn may have been introduced much earlier from a yet unidentified native range. By conducting behavioral, genetic and chemical analyses, I found that A. gracilipes supercolonies contain closely related individuals, thus resembling enlarged versions of monogynous, polydomous colonies of other ant species. Furthermore, mutually aggressive A. gracilipes supercolonies were highly differentiated both genetically and chemically, suggesting limited or even absent gene flow between supercolonies. Intranidal mating and colony-budding are most likely the predominant, if not the exclusive mode of reproduction and dispersal strategy of A. gracilipes. Consequently, a positive feedback between genetic, chemical and behavioral traits may further enhance supercolony differentiation though genetic drift and neutral evolution. This potential scenario led to the hypothesis that absent gene flow between different A. gracilipes supercolonies may drive them towards different evolutionary pathways, possibly including speciation. Thus, I examined one potential way by which gene flow between supercolonies of an ant species without nuptial flights may be maintained, i.e. the immigration of sexuals into foreign supercolonies. The results suggest that this option of maintaining gene flow between different supercolonies is likely impaired by severe aggression of workers towards allocolonial sexuals. Moreover, breeding experiments involving males and queens from different supercolonies suggest that A. gracilipes supercolonies may already be on the verge of reproductive isolation, which might lead to the diversification of A. gracilipes into different species. Regarding the ecological consequences of its potential introduction to NE-Borneo, I could show that A. gracilipes supercolonies may affect the local ant fauna. The ant community within supercolonies was less diverse and differed in species composition from areas outside supercolonies. My data suggest that the ecological dominance of A. gracilipes within local ant communities was facilitated by monopolization of food sources within its supercolony territory, achieved by a combination of rapid recruitment, numerical dominance and pronounced interspecific aggression. A. gracilipes’ distribution is almost exclusively limited to anthropogenically altered habitat, such as residential and agricultural areas. The rate at which habitat conversion takes place in NE-Borneo will provide A. gracilipes with a rapidly increasing abundance of suitable habitats, thus potentially entailing significant population growth. An potentially increasing population size and ecological dominance, however, are not features that are limited to invasive alien species, but may also occur in native species that become ‘pests’ in an increasing abundance of anthropogenically altered habitat. Lastly, I detected several ant guests in supercolonies of A. gracilipes. I subsequently describe the relationship between one of them (the cricket Myrmecophilus pallidithorax) and its ant host. By conducting behavioral bioassays and analyses of cuticular hydrocarbon (CHC) profiles, I revealed that although M. pallidithorax is attacked and consumed by A. gracilipes whenever possible, it may evade aggression from its host by a combination of supreme agility and, possibly, chemical deception. This thesis adds to our general understanding of biological invasions by contributing species-specific data on a previously understudied invasive organism, the Yellow Crazy Ant Anoplolepis gracilipes. Introductions which may have occurred a long time ago may make it difficult to determine whether a given species is an introduced invader or a native pest species, as both may have pronounced ecological effects in native species communities. Furthermore, this thesis suggests that supercolonialism in invasive ants may not be an evolutionary dead end, but that it may possibly give rise to new species due to reproductive boundaries between supercolonies evoked by peculiar mating and dispersal strategies.
Stroke, after myocardial infarction and cancer is the third most common cause of death worldwide and 1/6th of all human beings will suffer at least one stroke in their lives. Furthermore, it is the leading cause for adult disability with approximately one third of patients who survive for the next 6 months are dependent on others. Because of its huge socioeconomic burden absorbing 6% of all health care budgets and with the fact that life expectancy increases globally, one can assume that stroke is already, and will continue to be, the most challenging disease. Ischemic stroke accounts for approximately 80% of all strokes and results from a thrombotic or embolic occlusion of a major cerebral artery (most often the middle cerebral artery, MCA) or its branches Following acute ischemic stroke, the most worrisome outcome is the rapidly increasing intra-cranial pressure due to the formation of space-occupying vasogenic oedema which can have lethal consequences. Permeability changes at the Blood-Brain Barrier (BBB) usually accompanies the oedematous development and their time course can provide invaluable insight into the nature of the insult, activation of compensatory mechanisms followed by long term repair. Rodent models of focal cerebral ischemia have been developed and optimized to mimic human stroke conditions and serve as indispensable tools in the field of stroke research. The presented work constituting of three separate but complete works by themselves are sequential, where, the first part was dedicated to the establishment of non-invasive small animal imaging strategies on a 3 tesla clinical magnetic resonance scanner. This facilitated the longitudinal monitoring of pathological outcomes following stroke where identical animals can serve as its own control. Tissue relaxometric estimations were carried out initially to derive the transverse (T2), longitudinal (T1) and the transverse relaxation time due to magnetic susceptibility effects (T2*) at the cortical and striatal regions of the rodent brain. Statistically significant differences in T2*-values could be found between the cortex and striatal regions of the rodent brain. The derived tissue relaxation values were considered to modify the existing imaging protocols to facilitate the study of the rodent model of ischemic stroke. The modified sequence protocols adequately characterized all the clinically relevant sequels following acute ischemic stroke, like, the altered perfusion and diffusion characteristics. Subsequent to this, serial magnetic resonance imaging was performed to investigate the temporal and spatial relationship between the biphasic nature of BBB opening and, in parallel, the oedema formation after I/R injury in rats. T2-relaxometry for oedema assessment was performed at 1 h after ischemia, immediately following reperfusion, and at 4, 24 and 48 hours post reperfusion. Post-contrast T1-weighted imaging was performed at the last three time points to assess BBB integrity. The biphasic course of BBB opening with significant reduction in BBB permeability at 24 hours after reperfusion was associated with a progressive expansion of leaky BBB volume, accompanied by a peak ipsilateral oedema formation. At 48 hours, the reduction in T2-value indicated oedema resorption accompanied by a second phase of BBB opening. In addition, at 4 hours after reperfusion, oedema formation could also be detected at the contralateral striatum which persisted to varying degrees throughout the study, indicative of widespread effects of I/R injury. The observations of this study may indicate a dynamic temporal shift in the mechanisms responsible for biphasic BBB permeability changes, with non-linear relations to oedema formation. Two growth factor peptides namely pigment epithelium derived factor (PEDF) and epidermal growth factor (EGF) with widely different trophic properties were considered for their beneficial effects, if any, in the established rodent model of I/R injury and studied up to one week employing magnetic resonance imaging. Both the selected, trophic factors demonstrated significant neuroprotection as demonstrated by a reduction in infarct volume, even though PEDF was found to be the most potent one. PEDF also demonstrated significant attenuation of oedema formation in comparison to both the control and EGF groups, even though EGF could also demonstrate oedema suppression. In the present work, we noticed that interventions with macromolecule protein/peptides by itself could mediate remote oedema at distant sites even though the significance of such an observation is not clear at present. Susceptibility (T2*) weighted tissue relaxometric estimations were considered at the infarct region to detect any metabolic changes arising out of any neuroprotection and/or cellular proliferation / neurogenesis. PEDF group demonstrated a striking reduction of the T2*-values, which is indicative of an increased metabolic activity. Moreover, all the groups (Control, EGF and PEDF) demonstrated significantly elevated T2*-values at the contralateral striatum, which is indicative of widespread metabolic suppression usually associated with a variety of traumatic brain conditions. Moreover, as expected from the properties of PEDF, it demonstrated an extended BBB permeability suppression throughout the duration of the study. This study underlines the merits of considering non-invasive imaging strategies without which it was not possible to study the required parameters in a longitudinal fashion. All the observations are adequately supported by reasonably well defined mechanisms and needs to be further verified and confirmed by an immunohistochemical study. These results also need to be complemented by a functional study to evaluate the behavioural outcome of animals following these treatments. These studies are progressing at our laboratory and the results will be duly published afterwards.
An animal depends heavily on its sense of smell and its ability to form olfactory associations as this is crucial for its survival. This thesis studies in two parts about such associative olfactory learning in larval Drosophila. The first part deals with different aspects of odour processing while the second part is concerned with aspects related to memory and learning. Chapter I.1 highlights how odour intensities could be integrated into the olfactory percept of larval Drosophila. I first describe the dose-effect curves of learnability across odour intensities for different odours and then choose odour intensities from these curves such that larvae are trained at intermediate odour intensity, but are tested for retention with either that trained intermediate odour intensity, or with respectively HIGHer or LOWer intensities. I observe a specificity of retention for the trained intensity for all the odours used. Further I compare these findings with the case of adult Drosophila and propose a circuit level model of how such intensity coding comes about. Such intensity specificity of learning adds to appreciate the richness in 'content' of olfactory memory traces, and to define the demands on computational models of olfaction and olfactory learning. Chapter I.2 provides a behaviour-based estimate of odour similarity using four different types of experiments to yield a combined, task-independent estimate of perceived difference between odour-pairs. Further comparison of these perceived differences to published measures of physico- chemical difference reveals a weak correlation. Notable exceptions to this correlation are 3-octanol and benzaldehyde. Chapter I.3 shows for two odours (3-octanol and 1-octene-3-ol) that perceptual differences between these odours can either be ignored after non-discriminative training (generalization), or accentuated by odour-specific reinforcement (discrimination). Anosmic Or83b1 mutants have lost these faculties, indicating that this adaptive adjustment is taking place downstream of Or83b expressing sensory neurons. Chapter II.1 of this thesis deals with food supplementation with dried roots of Rhodiola rosea. This dose-dependently improves odour- reward associative function in larval Drosophila. Supplementing fly food with commercially available tablets or extracts, however, does not have a 'cognitive enhancing' effect, potentially enabling us to differentiate between the effective substances in the root versus these preparations. Thus Drosophila as a genetically tractable study case should now allow accelerated analyses of the molecular mechanism(s) that underlie this 'cognitive enhancement' conveyed by Rhodiola rosea. Chapter II.2 describes the role of Synapsin, an evolutionarily conserved presynaptic phosphoprotein using a combined behavioural and genetic approach and asks where and how, this protein affects functions in associative plasticity of larval Drosophila. This study shows that a Synapsin-dependent memory trace can be pinpointed to the mushroom bodies, a 'cortical' brain region of the insects. On the molecular level, data in this study assign Synapsin as a behaviourally- relevant effector of the AC-cAMP-PKA cascade.
For a large fraction of the proteins expressed in the human brain only the primary structure is known from the genome project. Proteins conserved in evolution can be studied in genetic models such as Drosophila. In this doctoral thesis monoclonal antibodies (mAbs) from the Wuerzburg Hybridoma library are produced and characterized with the aim to identify the target antigen. The mAb ab52 was found to be an IgM which recognized a cytosolic protein of Mr ~110 kDa on Western blots. The antigen was resolved by two-dimensional gel electrophoresis (2DE) as a single distinct spot. Mass spectrometric analysis of this spot revealed EPS-15 (epidermal growth factor receptor pathway substrate clone 15) to be a strong candidate. Another mAb from the library, aa2, was already found to recognize EPS-15, and comparison of the signal of both mAbs on Western blots of 1D and 2D electrophoretic separations revealed similar patterns, hence indicating that both antigens could represent the same protein. Finally absence of the wild-type signal in homozygous Eps15 mutants in a Western blot with ab52 confirmed the ab52 antigen to be EPS-15. Thus both the mAbs aa2 and ab52 recognize the Drosophila homologue of EPS-15. The mAb aa2, being an IgG, is more suitable for applications like immunoprecipitation (IP). It has already been submitted to the Developmental Studies Hybridoma Bank (DSHB) to be easily available for the entire research community. The mAb na21 was also found to be an IgM. It recognizes a membrane associated antigen of Mr ~10 kDa on Western blots. Due to the membrane associated nature of the protein, it was not possible to resolve it by 2DE and due to the IgM nature of the mAb it was not possible to enrich the antigen by IP. Preliminary attempts to biochemically purify the endogenously expressed protein from the tissue, gave promising results but could not be completed due to lack of time. Thus biochemical purification of the protein seems possible in order to facilitate its identification by mass spectrometry. Several other mAbs were studied for their staining pattern on cryosections and whole mounts of Drosophila brains. However, many of these mAbs stained very few structures in the brain, which indicated that only a very limited amount of protein would be available as starting material. Because these antibodies did not produce signals on Western blots, which made it impossible to enrich the antigens by electrophoretic methods, we did not attempt their purification. However, the specific localization of these proteins makes them highly interesting and calls for their further characterization, as they may play a highly specialized role in the development and/or function of the neural circuits they are present in. The purification and identification of such low expression proteins would need novel methods of enrichment of the stained structures.
Understanding of complex interactions and events in a nervous system, leading from the molecular level up to certain behavioural patterns calls for interdisciplinary interactions of various research areas. The goal of the presented work is to achieve such an interdisciplinary approach to study and manipulate animal behaviour and its underlying mechanisms. Optical in vivo imaging is a new constantly evolving method, allowing one to study not only the local but also wide reaching activity in the nervous system. Due to ease of its genetic accessibility Drosophila melanogaster represents an extraordinary experimental organism to utilize not only imaging but also various optogenetic techniques to study the neuronal underpinnings of behaviour. In this study four genetically encoded sensors were used to investigate the temporal dynamics of cAMP concentration changes in the horizontal lobes of the mushroom body, a brain area important for learning and memory, in response to various physiological and pharmacological stimuli. Several transgenic lines with various genomic insertion sites for the sensor constructs Epac1, Epac2, Epac2K390E and HCN2 were screened for the best signal quality, one line was selected for further experiments. The in vivo functionality of the sensor was assessed via pharmacological application of 8-bromo-cAMP as well as Forskolin, a substance stimulating cAMP producing adenylyl cyclases. This was followed by recording of the cAMP dynamics in response to the application of dopamine and octopamine, as well as to the presentation of electric shock, odorants or a simulated olfactory signal, induced by acetylcholine application to the observed brain area. In addition the interaction between the shock and the simulated olfactory signal by simultaneous presentation of both stimuli was studied. Preliminary results are supporting a coincidence detection mechanism at the level of the adenylyl cyclase as postulated by the present model for classical olfactory conditioning. In a second series of experiments an effort was made to selecticvely activate a subset of neurons via the optogenetic tool Channelrhodopsin (ChR2). This was achieved by recording the behaviour of the fly in a walking ball paradigm. A new method was developed to analyse the walking behaviour of the animal whose brain was made optically accessible via a dissection technique, as used for imaging, thus allowing one to target selected brain areas. Using the Gal4-UAS system the protocerebral bridge, a substructure of the central complex, was highlighted by expressing the ChR2 tagged by fluorescent protein EYFP. First behavioural recordings of such specially prepared animals were made. Lastly a new experimental paradigm for single animal conditioning was developed (Shock Box). Its design is based on the established Heat Box paradigm, however in addition to spatial and operant conditioning available in the Heat Box, the design of the new paradigm allows one to set up experiments to study classical and semioperant olfactory conditioning, as well as semioperant place learning and operant no idleness experiments. First experiments involving place learning were successfully performed in the new apparatus.
Yersinia enterocolitica subsp. palearctica serobiotype O:3/4 comprises about 80-90 % of all human patient isolates in Germany and Europe and is responsible for sporadic cases worldwide. Even though this serobiotype is low pathogenic, Y. enterocolitica subsp. palearctica serobiotype O:3/4 is involved in gastroenteritis, lymphadenitis and various extraintestinal sequelae as reactive arthritis. The main animal reservoir of this serobiotype are pigs, causing a high rate of O:3/4 contaminations of raw pork in butcher shops in Germany (e.g. Bavaria 25 %) and countries in north-east Europe. As Y. enterocolitica O:3/4 is geographically and phylogenetically distinct from the so far sequenced mouse-virulent O:8/1B strain, complete genome sequencing has been performed for the European serobiotype O:3/4 DSMZ reference strain Y11, which has been isolated from a patient stool. To gain greater insight into the Y. enterocolitica subspecies palearctica group, also draft genome sequences of two other human O:3/4 isolates (strains Y8265, patient isolate, and Y5307, patient isolate associated with reactive arthritis), a closely related Y. enterocolitica palearctica serobiotype O:5,27/3 (strain Y527P), and two biotype 1A strains (a nosocomial strain of serogroup O:5 and an environmental serogroup O:36 isolate) have been performed. Those strains were compared to the high-pathogenic Y. enterocolitica subsp. enterocolitica serobiotype O:8/1B strain 8081 to address the peculiarities of the strain Y11 and the Y. enterocolitica subspecies palearctica group. The main focus was to unravel the pathogenic potential of strain Y11 and thus to identify novel putative virulence genes and fitness factors, especially those that may constitute host specificity of serobiotype O:3/4. Y. enterocolitica subspecies palearctica serobiotype O:3/4 strains lack most of the mouse-virulence-associated determinants of Y. enterocolitica subsp. enterocolitica serotype O:8, for example the HPI, Yts1 type 2 and Ysa type three secretion systems. In comparison, serobiotype O:3/4 strains obviously acquired a different set of genes and genomic islands for virulence and fitness such as the Ysp type three secretion system, an RtxA-like putative toxin, insecticidal toxins and a functional PTS system for N-acetyl-galactosamine uptake, named aga-operon. The aga-operon is able to support the growth of the Y. enterocolitica subsp. enterocolitica O:8/1B on N-acetyl-galactosamine after transformation with the aga operon. Besides these genes, also two prophages, PhiYep-2 and PhiYep-3, and a asn tRNA-associated GIYep-01 genomic island might influence the Y. enterocolitica subsp. palearctica serobiotype O:3/4 pathoadaptation. The PhiYep-3 prophage and the GIYep-01 island show recombination activity and PhiYep-3 was not found in all O:3/4 strains of a small strain collection tested. Y. enterocolitica subsp. palearctica serobiotype O:5,27/3 strain Y527P was found to be closely related to all serobiotype O:3/4 strains, whereas the biotype 1A isolates have more mosaic-segmented genomes and share putative virulence genes both with serobiotypes O:8/1B and O:3/4, which implies their common descent. Besides the pYV virulence plasmid, biotype 1A strains lack classical virulence markers as the Ail adhesin, the YstA enterotoxin, and the virulence-associated protein C. Interestingly, there are no notable differences between the known virulence factors present in nosocomial and environmental strains, except the presence of a truncated Rtx toxin-like gene cluster and remnants of a P2-like prophage in the hospital serogroup O:5 isolate.
In recent years high-throughput experiments provided a vast amount of data from all areas of molecular biology, including genomics, transcriptomics, proteomics and metabolomics. Its analysis using bioinformatics methods has developed accordingly, towards a systematic approach to understand how genes and their resulting proteins give rise to biological form and function. They interact with each other and with other molecules in highly complex structures, which are explored in network biology. The in-depth knowledge of genes and proteins obtained from high-throughput experiments can be complemented by the architecture of molecular networks to gain a deeper understanding of biological processes. This thesis provides methods and statistical analyses for the integration of molecular data into biological networks and the identification of functional modules, as well as its application to distinct biological data. The integrated network approach is implemented as a software package, termed BioNet, for the statistical language R. The package includes the statistics for the integration of transcriptomic and functional data with biological networks, the scoring of nodes and edges of these networks as well as methods for subnetwork search and visualisation. The exact algorithm is extensively tested in a simulation study and outperforms existing heuristic methods for the calculation of this NP-hard problem in accuracy and robustness. The variability of the resulting solutions is assessed on perturbed data, mimicking random or biased factors that obscure the biological signal, generated for the integrated data and the network. An optimal, robust module can be calculated using a consensus approach, based on a resampling method. It summarizes optimally an ensemble of solutions in a robust consensus module with the estimated variability indicated by confidence values for the nodes and edges. The approach is subsequently applied to two gene expression data sets. The first application analyses gene expression data for acute lymphoblastic leukaemia (ALL) and differences between the subgroups with and without an oncogenic BCR/ABL gene fusion. In a second application gene expression and survival data from diffuse large B-cell lymphomas are examined. The identified modules include and extend already existing gene lists and signatures by further significant genes and their interactions. The most important novelty is that these genes are determined and visualised in the context of their interactions as a functional module and not as a list of independent and unrelated transcripts. In a third application the integrative network approach is used to trace changes in tardigrade metabolism to identify pathways responsible for their extreme resistance to environmental changes and endurance in an inactive tun state. For the first time a metabolic network approach is proposed to detect shifts in metabolic pathways, integrating transcriptome and metabolite data. Concluding, the presented integrated network approach is an adequate technique to unite high-throughput experimental data for single molecules and their intermolecular dependencies. It is flexible to apply on diverse data, ranging from gene expression changes over metabolite abundances to protein modifications in a combination with a suitable molecular network. The exact algorithm is accurate and robust in comparison to heuristic approaches and delivers an optimal, robust solution in form of a consensus module with confidence values. By the integration of diverse sources of information and a simultaneous inspection of a molecular event from different points of view, new and exhaustive insights into biological processes can be acquired.
According to a changing environment it is crucial for animals to make experience and learn about it. Sensing, integrating and learning to associate different kinds of modalities enables animals to expect future events and to adjust behavior in the way, expected as the most profitable. Complex processes as memory formation and storage make it necessary to investigate learning and memory on different levels. In this context Drosophila melanogaster represents a powerful model organism. As the adult brain of the fly is still quite complex, I chose the third instar larva as model - the more simple the system, the easier to isolate single, fundamental principles of learning. In this thesis I addressed several kinds of questions on different mechanism of olfactory associative and synaptic plasiticity in Drosophila larvae. I focused on short-term memory throughout my thesis. First, investigating larval learning on behavioral level, I developed a one-odor paradigm for olfactory associative conditioning. This enables to estimate the learnability of single odors, reduces the complexity of the task and simplify analyses of "learning mutants". It further allows to balance learnability of odors for generalization-type experiments to describe the olfactory "coding space". Furthermore I could show that innate attractiveness and learnability can be dissociated and found finally that paired presentation of a given odor with reward increase performance, whereas unpaired presentations of these two stimuli decrease performance, indicating that larva are able to learn about the presence as well as about the absence of a reward. Second, on behavioral level, together with Thomas Niewalda and colleagues we focussed on salt processing in the context of choice, feeding and learning. Salt is required in several physiological processes, but can neither be synthesized nor stored. Various salt concentrations shift the valence from attraction to repulsion in reflexive behaviour. Interestingly, the reinforcing effect of salt in learning is shifted by more than one order of magnitude toward higher concentrations. Thus, the input pathways for gustatory behavior appear to be more sensitive than the ones supporting gustatory reinforcement, which is may be due to the dissociation of the reflexive and the reinforcing signalling pathways of salt. Third, in cooperation with Michael Schleyer we performed a series of behavioral gustatory, olfactory preference tests and larval learning experiments. Based on the available neuroanatomical and behavioral data we propose a model regarding chemosensory processing, odor-tastant memory trace formation and the 'decision' like process. It incorporates putative sites of interaction between olfactory and gustatory pathways during the establishment as well as behavioral expression of odor-tastant memory. We claim that innate olfactory behavior is responsive in nature and suggest that associative conditioned behavior is not a simple substitution like process, but driven more likely by the expectation of its outcome. Fourth, together with Birgit Michels and colleagues we investigated the cellular site and molecular mode of Synapsin, an evolutionarily conserved, presynaptic vesicular phosphoprotein and its action in larval learning. We confirmed a previously described learning impairment upon loss of Synapsin. We localized this Synapsin dependent memory trace in the mushroom bodies, a third-order "cortical" brain region, and could further show on molecular level, that Synapsin is as a downstream element of the AC-cAMP-PKA signalling cascade. This study provides a comprehensive chain of explanation from the molecular level to an associative behavioral change. Fifth, in the main part of my thesis I focused on molecular level on another synaptic protein, the Synapse associated protein of 47kDa (Sap47) and its role in larval behavior. As a member of a phylogenetically conserved gene family of hitherto unknown function. It is localized throughout the whole neuropil of larval brains and associated with presynaptic vesicles. Upon loss of Sap47 larvae exhibit normal sensory detection of the to-be-associated stimuli as well as normal motor performance and basic synaptic transmission. Interestingly, short-term plasticity is distorted and odorant–tastant associative learning ability is reduced. This defect in associative function could be rescued by restoring Sap47 expression. Therefore, this report is the first to suggest a function for Sap47 and specifically argues that Sap47 is required for synaptic as well as for behavioral plasticity in Drosophila larva. This prompts the question whether its homologs are required for synaptic and behavioral plasticity also in other species. Further in the last part of my thesis I contributed to the study of Ayse Yarali. Her central topic was the role of the White protein in punishment and relief learning in adult flies. Whereas stimuli that precede shock during training are subsequently avoided as predictors for punishment, stimuli that follow shock during training are later on approached, as they predict relief. Concerning the loss of White we report that pain-relief learning as well as punishment learning is changed. My contribution was a comparison between wild type and the white1118 mutant larvae in odor-reward learning. It turned out that a loss of White has no effect on larval odorant-tastant learning. This study, regarding painrelief learning provides the very first hints concerning the genetic determinants of this form of learning.
Epimutations in Germ-Cell and Embryo Development: Possible Consequences for Assisted Reproduction
(2011)
Assisted reproductive technologies (ART) emerged in the late 1970’s as a therapy for human infertility. Up till now more than 3 million babies have been conceived through ART, demonstrating the safety and efficiency of the technique. Published reports showed an increase in the rate of imprinting disorders (Beckwith Wiedemann Syndrome, Angelman Syndrome, etc.) in babies born after ART. What are the effects imposed through ART and should researchers reassess its safety and implications on the future offspring? Throughout this thesis, I analyzed the methylation patterns of germ cells and embryos to determine whether in vitro maturation and in vitro fertilization have a negative impact on the epigenetic patterns. Furthermore, DNA methylation was compared between sperm of infertile and presumably fertile controls in order to understand whether epigenetic disturbances lead to infertility at the first place. The occurrence of methylation aberrations in germ cells of infertile patients could be transmitted to new-borns and then cause epigenetic disorders. In order to elucidate the imprinting status within single cells, I developed a new technique based on limiting dilution where bisulfite treated DNA is distributed across several wells before amplification. This allowed methylation measurement at the single allele level as well parent of origin detection. In a total of 141 sperm samples from couples undergoing in vitro fertilization (IVF) or intracytoplasmic sperm injection (ICSI) including 106 with male factor or combined infertility and 28 with female infertility, I detected a significant correlation between lower quality of semen parameters (sperm count, percentage of abnormal sperm, and percentage of motile sperm) and the rate of imprinting errors. ALU repeats displayed a higher methylation in sperm DNA of patients leading to a pregnancy and live birth, compared to patients in which pregnancy was not achieved or a spontaneous abortion occurred. A discriminant analysis based on ALU methylation allowed correct classification of >70% of cases. Preliminary data from illumina methylation arrays where more than 27,000 CpGs were analyzed determined that only a single CpG site from the open reading frame C14orf93 was significantly different between the infertile and presumably fertile control group. However, further improvements on data normalization might permit detection of other differentially methylated regions. Comparison of embryos after natural conception, in vitro fertilized embryos from superovulated oocytes, and embryos achieved through fertilization of in vitro cultured oocytes revealed no dramatic effect on the imprinting patterns of Igf2r, H19, and Snrpn. Oocyte cryotop vitrification did not result in a dramatic increase of imprinting mutations in oocytes even though the rate of sporadic methylation errors in single Snrpn CpGs were higher within the in-vitrified group. Collectively, the results I will present within this thesis suggest an increase in the rate of imprinting errors within the germ cells of infertile patients, in addition to a decrease in genome wide methylation of ALU repetitive elements. I did not observe a detrimental effect on the methylation patterns of oocytes and the resulting embryos using in vitro maturation of oocytes and/or standard IVF with in vivo grown superovulated oocytes.
Honeybees (Apis mellifera) forage on a great variety of plant species, navigate over large distances to crucial resources, and return to communicate the locations of food sources and potential new nest sites to nest mates using a symbolic dance language. In order to achieve this, honeybees have evolved a rich repertoire of adaptive behaviours, some of which were earlier believed to be restricted to vertebrates. In this thesis, I explore the mechanisms involved in honeybee learning, memory, numerical competence and navigation. The findings acquired in this thesis show that honeybees are not the simple reflex automats they were once believed to be. The level of sophistication I found in the bees’ memory, their learning ability, their time sense, their numerical competence and their navigational abilities are surprisingly similar to the results obtained in comparable experiments with vertebrates. Thus, we should reconsider the notion that a bigger brain automatically indicates higher intelligence.
Alzheimer’s disease (AD) is a progressive neurodegenerative disease of the brain. Today AD is the most common form of dementia in elderly people. It is clinically characterized by a progressive loss of memory and later on a decline in higher cognitive functions. The pathological hallmarks of AD, consistently demonstrated in brain tissue of patients, are extracellular amyloid-β (Aβ plaques, intracellular neurofibrillary tangles of tau protein and a profound loss of mainly cholinergic and glutamatergic synapses and ultimatively neurons. Estimates foresee that more than 80 million individuals will be affected by the disease by 2040 due to population aging worldwide underlining the high medical need for this disease. In order to find suitable drugs for the treatment of AD, experimental model systems are utilized to explore potential drug candidates. Such an experimental system is hippocampal long-term potentiation (LTP), which is widely accepted as an in vitro model of cellular processes fundamentally involved in memory formation. The present thesis focuses on the establishment and validation of LTP in rat hippocampal slices to characterize memory enhancing drugs as a potential treatment of AD. First, a multi-slice recording system was set up enabling stable measurements of LTP for up to seven hours from several slices simultaneously (chapter 2). Then, distinct protocols to induce early and late CA1 LTP, resembling short-term and long-term memory, were established. They were validated by addressing the hallmarks accepted for these forms of LTP: protein-synthesis independence and NMDA receptor dependence without contribution of L-VDCCs for early LTP, as opposed to protein-synthesis and NMDA / L-VDCCs dependence for late LTP (chapter 3). As in AD patients a loss of mainly cholinergic and glutamatergic synapses is obvious, these validated forms of LTP were used to study drugs potentially being able to enhance cholinergic and/or glutamatergic neuronal functions. The effects of two drugs exclusively interfering with cholinergic function on LTP were tested: the α4β2 nicotinic acetylcholinergic receptor agonist TC-1827 (chapter 4) and the acetylcholine esterase inhibitor donepezil (chapter 5). Both drugs were found to increase early LTP, but to not affect late LTP. Furthermore, two drugs exclusively interfering with glutamatergic function were analyzed: the metabotropic glutamate 5 receptor postive allosteric modulator ADX-47273 (chapter 3) and the phosphodiesterase (PDE) 9A inhibitor BAY 73-6691 (chapter 5). ADX-47273 increased late LTP, but had no effect on early LTP, whereas BAY 73-6691 showed enhancing effects on both early and late LTP and even transformed early into late LTP. The same effects like for the PDE9A inhibitor were observed for the α7 nicotinic acetylcholinergic receptor partial agonist SSR180711 (chapter 4), which interferes with both, cholinergic and glutamatergic function. Thus, drugs facilitating glutamatergic function or both glutamatergic and cholinergic function seem to be more efficacious in enhancing LTP than drugs facilitating solely cholinergic function. To evaluate whether this finding also proves true for experimental circumstances mimicking decreased cognitive function together with pathophysiology in AD patients, the ability of the drugs to ameliorate LTP impaired by soluble Aβ oligomer was analyzed (chapter 6). Soluble Aβ oligomers, also referred to as amyloid-β derived diffusible ligands (ADDLs), are thought to a putative cause of AD. Here, they were demonstrated to impair early and late LTP to different extents by exclusively targeting NMDA receptors and/or their signaling. These results further contribute to the hypothesis that soluble Aβ oligomers cause synaptic dysfunction which might lead to cognitive decline seen in AD patients. Regarding drug effects, donepezil and TC-1827 slightly restored ADDLs induced impairment of early LTP, but had no effect on late LTP impaired by ADDLs. In contrast, both, SSR180711 and BAY 73-6691 completely rescued early as well as late LTP impaired by ADDLs. ADX-47273 had no restoring effect on ADDLs induced early LTP impairment, but partially restored late LTP impaired by ADDLs. Thus, the earlier finding of the present thesis was confirmed: drugs facilitating glutamatergic function not only seem to be more efficacious in enhancing LTP than drugs facilitating solely cholinergic function, but are also superior in ameliorating soluble Aβ oligomer induced LTP deficits. Therefore, from a preclinical perspective and based on the results of the present thesis, drugs interfering with glutamatergic function seem to have a high therapeutic potential as alternative treatment concerning cognitive deficits. Probably, they represent more efficacious approaches for the symptomatic treatment of AD than current treatments solely facilitating cholinergic function.